SELECTION OF A HETEROGENEOUS CATALYSTS WITH METALLIC SURFACE STATES

Abstract

A method for controllably making catalysts with at least one metallic surface state, that includes: a) identifying all the topological insulators in the ICSD, b) calculating the Real Space Invariants of the valence bands for all these topological insulators in order to c) identify in all these topological insulators the Wyckoff Positions where the irreducible Wannier Charge Centers (WCCs) are localized, and then d) selecting as potentially catalytic active compound a topological insulator in which the position of WCCs is not occupied by any atom; e) synthesizing a crystal of the selected potentially catalytic active compound either so that it is grown in a predefined crystallographic direction (characterized by its Miller indices (h,k,l)) which exposes the metallic surface state; or cutting the crystal in a predefined crystallographic direction (characterized by its Miller indices (h,k,l)), so that the metallic surface state is exposed when

[00001] $(({\begin{matrix} (h, k, l) .Math. (x - X_{j}, y - Y_{j}, z - Z_{j}) = 0, \\ (h, k, l) .Math. (x - x_{i}, y - y_{i}, z - z_{i}) \neq 0, \\ h, k, l ϵ Z \end{matrix}))$

Claims

1. A method for making a catalyst with at least one metallic surface state, comprising: a) identifying all topological insulators in an Inorganic Crystal Structure Database (“ICSD”), b) calculating Real Space Invariants of valence bands for all these topological insulators c) identifying in all these topological insulators Wyckoff Positions where irreducible Wannier Charge Centers (WCCs) are localized, and then d) selecting as potentially catalytic active compound a topological insulator wherein the Wyckoff Position of WCCs is not occupied by any atom (=Wyckoff Position of obstructed WCCs, =WP.sub.OAI) of the topological insulator, e) synthesizing a crystal of the selected potentially catalytic active compound either so that the crystal is grown in a predefined crystallographic direction (characterized by its Miller indices (h,k,l)) which exposes at least one metallic surface state; or cutting the crystal in a predefined crystallographic direction (characterized by its Miller indices (h,k,l)), so that the at least one metallic surface state is exposed, wherein the predefined crystallographic direction is the direction of a normal vector (h,k,l) of a surface plane f(x, y, z)=0 which cuts through the Wyckoff Position of obstructed WCCs (WP.sub.OAI), but stays away from the Wyckoff Position(s) of atoms of the selected topological insulator (=occupied Wyckoff Position(s), =WP.sub.OCC), which condition is fulfilled when: ${\begin{matrix} (h, k, l) .Math. (x - X_{j}, y - Y_{j}, - Z_{j}) = 0, \\ (h, k, l) .Math. (x - x_{i}, y - y_{i}, z - z_{i}) \neq 0, \\ h, k, l ϵ Z \end{matrix}$ with the obstructed WCCs localized at
WP.sub.OAI={X.sub.j,Y.sub.j,Z.sub.j|RSI.sub.j≠0,j.Math.occupied positions} and atoms of the selected potentially catalytic active compound occupying
WP.sub.occ={x.sub.i,y.sub.i,z.sub.i|i∈occupied positions}.

2. The method of claim 1, wherein the topological insulator is a topological trivial insulator.

3. The method of claim 1, wherein instead of steps a) through d) the potentially catalytic active compound is selected from the list consisting of: Ba.sub.1P.sub.8, I.sub.4P.sub.2, Mn.sub.1P.sub.4, Nb.sub.2Se.sub.9, Os.sub.1P.sub.4, P.sub.3Ru.sub.1, P.sub.4Ru.sub.1, P.sub.5Re.sub.2, Re.sub.1S.sub.2, Re.sub.1Se.sub.2, S.sub.2Tc.sub.1, Lu.sub.1P.sub.5, P.sub.5Y.sub.1, As.sub.1Ge.sub.1, As.sub.1Si.sub.1, Ba.sub.1P.sub.3, Bi.sub.1S.sub.2, Bi.sub.1Se.sub.2, Br.sub.4Nb.sub.1, Br.sub.6Si.sub.2, C.sub.22F.sub.14, C.sub.2Ca.sub.1, Ca.sub.5P.sub.8, Cl.sub.3Mo.sub.1, Cl.sub.3Y.sub.2, Cl.sub.4Nb.sub.1, Cl.sub.4Ta.sub.1, Cs.sub.5Te.sub.3, Ga.sub.1Te.sub.1, Ge.sub.1P.sub.1, Hg.sub.1O.sub.2, In.sub.1Se.sub.1, K.sub.1Sb.sub.2, Na.sub.1P.sub.2, O.sub.2Rb.sub.2, P.sub.3Sr.sub.1, Rb.sub.1Sb.sub.2, Ag.sub.1P.sub.2, As.sub.2Co.sub.1, As.sub.2Ir.sub.1, As.sub.2La.sub.1, As.sub.2Rh.sub.1, Au.sub.1O.sub.1, B.sub.2F.sub.4, B.sub.4Mn.sub.1, Ca.sub.1O.sub.2, Cd.sub.1P.sub.4, Co.sub.1P.sub.2, Cs.sub.1Te.sub.4, Cs.sub.2I.sub.8, Cu.sub.1P.sub.2, Fe.sub.1P.sub.4, Fe.sub.1S.sub.1, Ga.sub.2I.sub.3, Hg.sub.2N.sub.6, Ir.sub.1N.sub.2, Ir.sub.1P.sub.2, Ir.sub.1Sb.sub.2, La.sub.1P.sub.7, La.sub.1S.sub.2, La.sub.1Se.sub.2, Li.sub.2O.sub.2, Mg.sub.1P.sub.4, N.sub.2O.sub.4, N.sub.2S.sub.2, O.sub.2Tc.sub.1, P.sub.2Rh.sub.1, P.sub.7Pb.sub.1, Rh.sub.1Sb.sub.2, Rh.sub.1Si.sub.1, Sb.sub.1Zn.sub.1, Ba.sub.1S.sub.2, Ba.sub.1Se.sub.2, C.sub.2Ba.sub.1, C.sub.2Sr.sub.1, I.sub.6Pt.sub.2, Ni.sub.1P.sub.2, O.sub.2Si.sub.1, P.sub.2Pd.sub.1, S.sub.2Yb.sub.1, S.sub.4V.sub.1, Se.sub.3Tl.sub.2, Se.sub.9V.sub.2, Te.sub.3Tl.sub.2, As.sub.3Ca.sub.4, Cs.sub.2Te.sub.2, K.sub.2O.sub.2, Rb.sub.2Te.sub.2, As.sub.2Fe.sub.1, As.sub.2Os.sub.1, As.sub.2Ru.sub.1, C.sub.1N.sub.1, Fe.sub.1P.sub.2, Fe.sub.1S.sub.2, Fe.sub.1Sb.sub.2, Fe.sub.1Se.sub.2, In.sub.1S.sub.1, N.sub.2Pt.sub.1, Os.sub.1P.sub.2, Os.sub.1Sb.sub.2, P.sub.2Ru.sub.1, Ru.sub.1Sb.sub.2, Ru.sub.1Te.sub.2, Ge.sub.3Os.sub.2, Ge.sub.3Ru.sub.2, Os.sub.2Si.sub.3, Ru.sub.2Si.sub.3, As.sub.1Cd.sub.1, As.sub.1Zn.sub.1, B.sub.2Cl.sub.4, C.sub.2N.sub.2, Cd.sub.1Sb.sub.1, Cl.sub.1O.sub.2, P.sub.4Re.sub.1, P.sub.4Tc.sub.1, Pd.sub.1S.sub.2, B.sub.2Fe.sub.1, Na.sub.1P.sub.5, P.sub.3Re.sub.1, P.sub.3Tc.sub.1, Ba.sub.5P.sub.4, Ba.sub.5Sb.sub.4, K.sub.1Tl.sub.1, Ba.sub.1O.sub.2, F.sub.3La.sub.1, As.sub.6Cs.sub.4, As.sub.6Rb.sub.4, Cs.sub.4P.sub.6, K.sub.4P.sub.6, P.sub.6Rb.sub.4, Al.sub.2Ru.sub.1, Ga.sub.2Os.sub.1, Ga.sub.2Ru.sub.1, C.sub.2Li.sub.2, C.sub.2Na.sub.2, Cs.sub.2O.sub.2, Cs.sub.2S.sub.2, Rb.sub.2S.sub.2, B.sub.3Si.sub.1, H.sub.6Ru.sub.1, O.sub.64Si.sub.32, K.sub.5Te.sub.3, B.sub.10F.sub.12, Li.sub.1Si.sub.1, C.sub.1N.sub.2, Cs.sub.1In.sub.3, Ga.sub.3K.sub.1, Ga.sub.3Rb.sub.1, H.sub.8Si.sub.1, C.sub.2Mg.sub.1, Fe.sub.1Ga.sub.3, Ga.sub.3Os.sub.1, Ga.sub.3Ru.sub.1, In.sub.3Ru.sub.1, Li.sub.2S.sub.2, B.sub.4Os.sub.1, Cl.sub.2Zn.sub.1, Hg.sub.1I.sub.2, Hg.sub.2I.sub.4, Al.sub.2Os.sub.1, As.sub.1Ca.sub.2, Bi.sub.1Ca.sub.2, Br.sub.1Hg.sub.1, Br.sub.2Hg.sub.2, Cl.sub.2Hg.sub.2, F.sub.2Hg.sub.2, Ga.sub.3K.sub.2, Hg.sub.1I.sub.1, Hg.sub.2I.sub.2, In.sub.3Rb.sub.2, O.sub.2Sr.sub.1, Ba.sub.1Te.sub.2, O.sub.2Zn.sub.1, S.sub.2Sr.sub.1, Au.sub.1Br.sub.1, Au.sub.1Cl.sub.1, O.sub.3U.sub.1, Br.sub.12Zr.sub.6, Cl.sub.12Zr.sub.6, I.sub.12Zr.sub.6, I.sub.6Si.sub.2, As.sub.1B.sub.6, As.sub.2Bi.sub.2, B.sub.12P.sub.2, B.sub.12Si.sub.3, B.sub.6O.sub.1, B.sub.6P.sub.1, Br.sub.8Nb.sub.3, C.sub.1B.sub.4, C.sub.3B.sub.12, Ga.sub.1S.sub.1, I.sub.8Nb.sub.3, Cr.sub.1N.sub.2, Ga.sub.1Se.sub.1, Mo.sub.1N.sub.2, N.sub.2W.sub.1, Ca.sub.1P.sub.1, Ca.sub.2P.sub.2, K.sub.2S.sub.2, K.sub.2Se.sub.2, Na.sub.2O.sub.2, Na.sub.2S.sub.2, P.sub.1Sr.sub.1, C.sub.2Os.sub.1, Hf.sub.1N.sub.2, K.sub.2Te.sub.2, Mo.sub.1S.sub.2, Mo.sub.1Se.sub.2, Mo.sub.1Te.sub.2, Na.sub.1S.sub.1, Na.sub.2Se.sub.2, S.sub.2W.sub.1, Se.sub.2W.sub.1, Te.sub.2W.sub.1, As.sub.2Pt.sub.1, Cd.sub.1O.sub.2, Cd.sub.1S.sub.2, Cd.sub.1Se.sub.2, Fe.sub.1Te.sub.2, Mg.sub.1O.sub.2, Mg.sub.1Se.sub.2, Mg.sub.1Te.sub.2, N.sub.2Pd.sub.1, Os.sub.1S.sub.2, Os.sub.1Se.sub.2, Os.sub.1Te.sub.2, P.sub.2Pt.sub.1, Ru.sub.1S.sub.2, Ru.sub.1Se.sub.2, S.sub.2Zn.sub.1, Se.sub.2Zn.sub.1, Ag.sub.1Br.sub.1, Ag.sub.1Cl.sub.1, Ag.sub.1I.sub.1, B.sub.4Fe.sub.1, Be.sub.5Pt.sub.1, Br.sub.1Cu.sub.1, Cd.sub.1S.sub.1, Cd.sub.1Se.sub.1, Cd.sub.1Te.sub.1, Cl.sub.1Cu.sub.1, Cu.sub.1I.sub.1, Cu.sub.5Tb.sub.1, O.sub.1Zn.sub.1, S.sub.1Sn.sub.1, S.sub.1Zn.sub.1, Se.sub.1Zn.sub.1, Te.sub.1Zn.sub.1, B.sub.6Ca.sub.1, B.sub.6Si.sub.1, B.sub.6Sr.sub.1 and B.sub.1Li.sub.1, Al.sub.2Cd.sub.2Cl.sub.8, Al.sub.4Cl.sub.14Te.sub.4, As.sub.1Fe.sub.1S.sub.1, Au.sub.1Br.sub.8Te.sub.1, B.sub.18Cs.sub.8S.sub.18, B.sub.18Rb.sub.8S.sub.18, B.sub.18Rb.sub.8Se.sub.18, B.sub.8Br.sub.6P.sub.4, Bi.sub.2Br.sub.8Te.sub.4, Bi.sub.4Cl.sub.16Te.sub.14, Bi.sub.6Cl.sub.20Te.sub.4, Br.sub.12Ta.sub.2Te.sub.4, Br.sub.1Mo.sub.1Te.sub.4, Br.sub.2Nb.sub.1S.sub.2, Br.sub.2Nb.sub.1Se.sub.2, C.sub.22Co.sub.6O.sub.18, C.sub.2I.sub.10La.sub.6, C.sub.2O.sub.4Pb.sub.1, Cl.sub.12Ta.sub.2Te.sub.4, Cl.sub.18P.sub.2Re.sub.2, Cl.sub.2Nb.sub.1Se.sub.2, Cl.sub.5O.sub.4Re.sub.2, Cl.sub.6Hf.sub.1Te.sub.4, Cl.sub.8Ga.sub.2Hg.sub.2, Cs.sub.1Sb.sub.2Se.sub.4, Cs.sub.2S.sub.6Sn.sub.2, Cs.sub.2S.sub.8Sb.sub.4, Cs.sub.2Se.sub.6Sn.sub.2, Cs.sub.4P.sub.2Se.sub.10, Cu.sub.4P.sub.3Se.sub.4, F.sub.12I.sub.4Sb.sub.2, F.sub.12Sb.sub.2Te.sub.4, Ge.sub.1Li.sub.1Te.sub.2, Ge.sub.2Te.sub.6Tl.sub.6, Hg.sub.1O.sub.3V.sub.1, Hg.sub.2P.sub.2S.sub.6, I.sub.12Nb.sub.2Te.sub.8, I.sub.1Ta.sub.1Te.sub.4, In.sub.2O.sub.5P.sub.1, K.sub.2O.sub.8S.sub.2, K.sub.2Sb.sub.4Se.sub.8, La.sub.6O.sub.18Re.sub.4, Li.sub.1Mo.sub.1S.sub.2, Mo.sub.4N.sub.14Sr.sub.10, Na.sub.2O.sub.8S.sub.2, Rb.sub.2Sb.sub.4Se.sub.8, Si.sub.2Te.sub.6Tl.sub.6, As.sub.2Ga.sub.2Sr.sub.1, C.sub.2Ca.sub.1O.sub.4, Al.sub.2Na.sub.7Sb.sub.5, Ba.sub.3P.sub.6Si.sub.4, Bi.sub.9I.sub.3Rh.sub.2, Cl.sub.7Nb.sub.3Se.sub.5, Ir.sub.2Se.sub.5Sn.sub.1, K.sub.4P.sub.8Te.sub.4, Al.sub.1O.sub.4W.sub.1, As.sub.1Cl.sub.2Hg.sub.2, As.sub.2F.sub.12I.sub.4, As.sub.3Ba.sub.2Cd.sub.2, As.sub.3Sr.sub.2Zn.sub.2, Ba.sub.5Cr.sub.1N.sub.5, Bi.sub.4Br.sub.2Ru.sub.1, Br.sub.10Te.sub.4Zr.sub.2, C.sub.1B.sub.2O.sub.2, C.sub.1N.sub.1Th.sub.1, C.sub.2Br.sub.2Gd.sub.2, C.sub.2La.sub.2O.sub.2, C.sub.4Cs.sub.2O.sub.4, C.sub.4Li.sub.2O.sub.4, C.sub.4O.sub.4Rb.sub.2, Cd.sub.1P.sub.1S.sub.3, Cd.sub.2P.sub.2S.sub.6, Cd.sub.6Sb.sub.12Sr.sub.11, Cl.sub.2Hg.sub.2P.sub.1, Cl.sub.2Nb.sub.1S.sub.2, Fe.sub.1P.sub.1S.sub.3, Fe.sub.2P.sub.2S.sub.6, Ge.sub.1K.sub.3S.sub.3, Ge.sub.2K.sub.6S.sub.6, Ge.sub.2K.sub.6Se.sub.6, Hg.sub.6O.sub.7Si.sub.2, I.sub.2O.sub.1Ta.sub.1, K.sub.6Si.sub.2Te.sub.6, Mg.sub.1P.sub.1S.sub.3, Na.sub.4P.sub.2S.sub.6, Ni.sub.1P.sub.1S.sub.3, Ni.sub.1P.sub.1Se.sub.3, Ni.sub.2P.sub.2S.sub.6, P.sub.1S.sub.3Zn.sub.1, P.sub.2S.sub.6V.sub.2, P.sub.2S.sub.6Zn.sub.2, P.sub.6S.sub.18Zn.sub.4, Hg.sub.2Mo.sub.2O.sub.7, Hg.sub.2O.sub.4S.sub.1, Hg.sub.2O.sub.4Se.sub.1, Hg.sub.4O.sub.7P.sub.2, K.sub.2Mo.sub.8O.sub.16, Ag.sub.5Ge.sub.1O.sub.4, As.sub.1Cd.sub.2Cl.sub.2, As.sub.1Fe.sub.1Se.sub.1, As.sub.1Fe.sub.1Te.sub.1, As.sub.1Ru.sub.1Te.sub.1, As.sub.2Cs.sub.4Te.sub.6, As.sub.2F.sub.12Hg.sub.4, As.sub.2Hg.sub.6O.sub.10, As.sub.2Hg.sub.6O.sub.8, Ba.sub.1P.sub.3Pt.sub.2, Ba.sub.2P.sub.2S.sub.6, Ba.sub.2P.sub.2Se.sub.6, Ba.sub.6P.sub.6Sn.sub.2, Bi.sub.1Os.sub.1Se.sub.1, Br.sub.14Ga.sub.4Te.sub.4, Br.sub.3Hg.sub.2Te.sub.1, C.sub.1D.sub.1K.sub.1O.sub.3, C.sub.2Ag.sub.2O.sub.4, C.sub.2Cd.sub.1O.sub.4, C.sub.2H.sub.6O.sub.6, C.sub.2Li.sub.2O.sub.4, C.sub.2Na.sub.2O.sub.4, C.sub.2O.sub.4Tl.sub.2, C.sub.2O.sub.4Zn.sub.1, C.sub.4Na.sub.2O.sub.4, Ca.sub.1Mo.sub.5O.sub.8, Ca.sub.2P.sub.2S.sub.6, Ca.sub.2P.sub.2Se.sub.6, Cd.sub.2Cl.sub.2P.sub.1, Cl.sub.14Ga.sub.4Te.sub.4, Cl.sub.3Cu.sub.1K.sub.1, Cl.sub.3Mo.sub.1S.sub.2, Cl.sub.7O.sub.3Re.sub.2, Co.sub.1K.sub.2O.sub.2, Cs.sub.1O.sub.5V.sub.2, Cs.sub.2O.sub.8S.sub.2, Cs.sub.2Se.sub.6Te.sub.2, Cu.sub.1La.sub.2S.sub.4, Fe.sub.1P.sub.1S.sub.1, Fe.sub.1P.sub.1Se.sub.1, Fe.sub.1S.sub.1Sb.sub.1, Fe.sub.1Sb.sub.1Se.sub.1, Fe.sub.1Sb.sub.1Te.sub.1, Ge.sub.2Na.sub.6Se.sub.6, Ge.sub.2Na.sub.6Te.sub.6, H.sub.4B.sub.2O.sub.4, Hg.sub.1O.sub.4Re.sub.1, Hg.sub.2N.sub.2O.sub.4, Hg.sub.4N.sub.2O.sub.8, Hg.sub.6O.sub.8P.sub.2, I.sub.1Nb.sub.2Te.sub.6, In.sub.4P.sub.6S.sub.18, K.sub.4O.sub.8P.sub.2, K.sub.6Se.sub.6Sn.sub.2, K.sub.6Sn.sub.2Te.sub.6, Mo.sub.5O.sub.8Sr.sub.1, Na.sub.6Si.sub.2Te.sub.6, Os.sub.1P.sub.1S.sub.1, Os.sub.1P.sub.1Se.sub.1, Os.sub.1S.sub.1Sb.sub.1, Os.sub.1Sb.sub.1Se.sub.1, Os.sub.1Sb.sub.1Te.sub.1, P.sub.1Pb.sub.1Se.sub.3, P.sub.1Ru.sub.1S.sub.1, P.sub.1Ru.sub.1Se.sub.1, P.sub.1Se.sub.3Sn.sub.1, P.sub.2Pb.sub.2S.sub.6, P.sub.2Pb.sub.2Se.sub.6, P.sub.2S.sub.6Sn.sub.2, P.sub.2S.sub.6Sr.sub.2, P.sub.2Se.sub.6Sn.sub.2, P.sub.2Se.sub.6Sr.sub.2, P.sub.2Se.sub.6Tl.sub.4, Ru.sub.1S.sub.1Sb.sub.1, Ru.sub.1Sb.sub.1Se.sub.1, Ru.sub.1Sb.sub.1Te.sub.1, Ag.sub.2O.sub.2Pb.sub.1, As.sub.1F.sub.6I.sub.5, As.sub.3Br.sub.1Cd.sub.2, As.sub.3Br.sub.1Hg.sub.2, As.sub.3Cd.sub.2I.sub.1, As.sub.6Ba.sub.1Pt.sub.4, As.sub.6Pt.sub.4Sr.sub.1, Au.sub.1C.sub.11O.sub.2, Au.sub.1Cl.sub.4Cs.sub.1, Au.sub.1Cl.sub.4Rb.sub.1, Au.sub.1Cl.sub.4Tl.sub.1, Au.sub.1F.sub.4Li.sub.1, Au.sub.1Li.sub.1S.sub.1, B.sub.2Li.sub.2Se.sub.5, Bi.sub.3Cl.sub.1O.sub.4, Br.sub.1Cd.sub.2P.sub.3, Br.sub.2Hg.sub.2O.sub.6, C.sub.2O.sub.4Sn.sub.1, C.sub.4Ag.sub.2O.sub.4, Cd.sub.2Cl.sub.1P.sub.3, Cd.sub.2I.sub.1P.sub.3, Cd.sub.2O.sub.12P.sub.4, Cl.sub.1Hg.sub.2O.sub.1, Cl.sub.1Hg.sub.2P.sub.3, Cl.sub.2Hg.sub.4O.sub.2, Cl.sub.4Os.sub.1Sc.sub.4, Cs.sub.1F.sub.7Sb.sub.2, Cs.sub.2Re.sub.3Se.sub.6, Cs.sub.4Re.sub.6S.sub.13, Cs.sub.4Re.sub.6Se.sub.13, Cs.sub.4S.sub.13Tc.sub.6, Cs.sub.4Se.sub.13Tc.sub.6, Cs.sub.6Ge.sub.2Se.sub.6, Cs.sub.6Ge.sub.2Te.sub.6, Cs.sub.6Sn.sub.2Te.sub.6, Cu.sub.2O.sub.2Pb.sub.1, Cu.sub.2Re.sub.3Se.sub.6, Fe.sub.2O.sub.12P.sub.4, Ge.sub.2K.sub.6Te.sub.6, Hg.sub.2P.sub.2Se.sub.6, K.sub.2Re.sub.3S.sub.6, K.sub.2Re.sub.3Se.sub.6, K.sub.4Re.sub.6Se.sub.12, K.sub.4Si.sub.2Tc.sub.6, K.sub.4Se.sub.12Tc.sub.6, Mn.sub.2Mo.sub.1P.sub.12, Na.sub.2Nb.sub.4O.sub.11, Na.sub.2Re.sub.3S.sub.6, Na.sub.2Re.sub.3Se.sub.6, O.sub.3Si.sub.1Sr.sub.1, O.sub.4Pd.sub.1S.sub.1, O.sub.4Pt.sub.1S.sub.1, O.sub.7P.sub.2Pd.sub.2, P.sub.6Pt.sub.4Sr.sub.1, Rb.sub.2Re.sub.3S.sub.6, Rb.sub.2Re.sub.3Se.sub.6, Rb.sub.4Re.sub.6Si.sub.2, Rb.sub.4Re.sub.6S.sub.13, Rb.sub.4Re.sub.6Se.sub.12, Rb.sub.4S.sub.13Tc.sub.6, Rb.sub.4Se.sub.12Tc.sub.6, Re.sub.3S.sub.6Tl.sub.2, Re.sub.3Se.sub.6Tl.sub.2, Re.sub.6Se.sub.12Tl.sub.4, Br.sub.11Cs.sub.1Nb.sub.4, Br.sub.11Nb.sub.4Rb.sub.1, Cl.sub.11Cs.sub.1Nb.sub.4, Cl.sub.11Nb.sub.4Rb.sub.1, Al.sub.2Ca.sub.5Sb.sub.6, Al.sub.2Cl.sub.8Se.sub.4, As.sub.6Ca.sub.5Ga.sub.2, Ba.sub.1Nb.sub.8O.sub.14, Ba.sub.3O.sub.1Sb.sub.2, Ba.sub.5In.sub.2Sb.sub.6, C.sub.2K.sub.2O.sub.4, C.sub.2O.sub.4Rb.sub.2, Ca.sub.5In.sub.2Sb.sub.6, In.sub.2Sb.sub.6Sr.sub.5, Nb.sub.8O.sub.14Sr.sub.1, Ag.sub.5O.sub.4Si.sub.1, Br.sub.1Hg.sub.2P.sub.3, Nb.sub.2Ni.sub.1O.sub.6, O.sub.9P.sub.2V.sub.2, Al.sub.2Cl.sub.8Te.sub.4, Au.sub.1O.sub.4S.sub.1, Cl.sub.2N.sub.4S.sub.6, Co.sub.1Ge.sub.1Te.sub.1, Cu.sub.1O.sub.3Se.sub.1, Cu.sub.1P.sub.2Se.sub.1, Ge.sub.1Rh.sub.1Te.sub.1, O.sub.6P.sub.2Tl.sub.4, Pt.sub.1Sb.sub.1Si.sub.1, Al.sub.1K.sub.1Sb.sub.4, Al.sub.1P.sub.3Si.sub.1, As.sub.1La.sub.1Te.sub.1, As.sub.2Hg.sub.4O.sub.7, Ba.sub.1P.sub.4Te.sub.2, Cs.sub.2Ge.sub.1Te.sub.4, Cs.sub.2Sn.sub.1Te.sub.4, Ga.sub.1K.sub.1Sb.sub.4, H.sub.2B.sub.1Li.sub.1, La.sub.1Mn.sub.1S.sub.3, La.sub.1P.sub.1S.sub.1, P.sub.1S.sub.1Y.sub.1, P.sub.2Ru.sub.2Th.sub.1, I.sub.1K.sub.4P.sub.21, I.sub.1P.sub.21Rb.sub.4, B.sub.12Li.sub.2Si.sub.2, B.sub.2Ba.sub.1Se.sub.6, In.sub.9K.sub.1Na.sub.3, La.sub.2O.sub.2S.sub.2, Na.sub.4P.sub.2Se.sub.6, Nb.sub.1P.sub.2S.sub.8, F.sub.6Pa.sub.1Rb.sub.1, Au.sub.1Na.sub.1S.sub.1, Cs.sub.2Ni.sub.3S.sub.4, Cs.sub.2Ni.sub.3Se.sub.4, Cs.sub.2Pd.sub.3Se.sub.4, Cs.sub.2Pt.sub.3S.sub.4, Cs.sub.2Pt.sub.3Se.sub.4, Li.sub.2O.sub.4U.sub.1, Na.sub.2O.sub.4U.sub.1, Ni.sub.3Rb.sub.2S.sub.4, Pt.sub.3Rb.sub.2S.sub.4, Au.sub.1Cs.sub.1F.sub.4, Au.sub.5Cs.sub.7O.sub.2, Au.sub.5O.sub.2Rb.sub.7, Br.sub.3Cs.sub.1Li.sub.2, Cl.sub.2I.sub.2Ta.sub.1, Cl.sub.3Cs.sub.1Li.sub.2, Hf.sub.2N.sub.2S.sub.1, Li.sub.2Ni.sub.1O.sub.2, Na.sub.2O.sub.3Ti.sub.1, Na.sub.2O.sub.4Pd.sub.3, O.sub.3Pd.sub.1Sr.sub.2, Al.sub.1B.sub.14Li.sub.1, Ba.sub.1Ce.sub.1O.sub.3, C.sub.2B.sub.13Li.sub.1, Cu.sub.11K.sub.3Te.sub.16, O.sub.4P.sub.1Rh.sub.1, O.sub.4Si.sub.1Zn.sub.2, P.sub.2S.sub.6Th.sub.1, P.sub.2S.sub.6Zr.sub.1, Ba.sub.9Br.sub.34O.sub.1Pr.sub.6, Bi.sub.4I.sub.2Ru.sub.1, La.sub.4O.sub.10Re.sub.2, Br.sub.2Cs.sub.1F.sub.1, C.sub.2Ag.sub.1K.sub.1, C.sub.2Au.sub.1Cs.sub.1, C.sub.2Au.sub.1K.sub.1, C.sub.2Au.sub.1Na.sub.1, C.sub.2Au.sub.1Rb.sub.1, C.sub.2Cu.sub.1Rb.sub.1, C.sub.2Ag.sub.1Cs.sub.1, C.sub.2Cu.sub.1K.sub.1, Cl.sub.3O.sub.1W.sub.1, I.sub.3O.sub.1W.sub.1, Li.sub.6O.sub.4Zn.sub.1, Cl.sub.6Hf.sub.1Se.sub.4, Cl.sub.6Se.sub.4Zr.sub.1, Br.sub.2Cs.sub.2F.sub.2, Cs.sub.2I.sub.6Pd.sub.1, C.sub.4Ba.sub.1O.sub.4, Ag.sub.3Cu.sub.1S.sub.2, Ba.sub.1Cu.sub.2O.sub.2, Ba.sub.1O.sub.7U.sub.2, C.sub.4O.sub.4Pb.sub.1, Cd.sub.1In.sub.2O.sub.4, Cl.sub.2O.sub.1Pd.sub.2, Cu.sub.2O.sub.2Sr.sub.1, Al.sub.1Si.sub.1Te.sub.3, B.sub.12Br.sub.12Cs.sub.2, B.sub.12Cl.sub.12Cs.sub.2, B.sub.12Cs.sub.2I.sub.12, Cd.sub.2P.sub.2Se.sub.6, Cs.sub.8O.sub.1Tl.sub.8, Fe.sub.1P.sub.1Se.sub.3, Fe.sub.2P.sub.2Se.sub.6, Mg.sub.2P.sub.2Se.sub.6, Nb.sub.6O.sub.12Ti.sub.2, As.sub.2Hg.sub.2O.sub.6, Ca.sub.1O.sub.6Os.sub.2, O.sub.6Ru.sub.2Sr.sub.1, C.sub.2Cs.sub.2Pd.sub.1, C.sub.2Cs.sub.2Pt.sub.1, C.sub.2K.sub.2Pd.sub.1, C.sub.2K.sub.2Pt.sub.1, C.sub.2Na.sub.2Pd.sub.1, C.sub.2Na.sub.2Pt.sub.1, C.sub.2Pd.sub.1Rb.sub.2, C.sub.2Pt.sub.1Rb.sub.2, H.sub.2B.sub.2Ca.sub.1, Mg.sub.3Nb.sub.6O.sub.11, O.sub.2Pr.sub.2S.sub.1, O.sub.2Pr.sub.2Se.sub.1, B.sub.9Mg.sub.1N.sub.1, Cs.sub.4O.sub.1Tl.sub.2, F.sub.1Gd.sub.1O.sub.1, H.sub.8F.sub.4N.sub.2, Br.sub.9Os.sub.2Rb.sub.3, C.sub.9Fe.sub.2O.sub.9, Mo.sub.1S.sub.1Se.sub.1, Ag.sub.2I.sub.10Tl.sub.6, Ba.sub.5O.sub.10Ru.sub.2, Ca.sub.1Ga.sub.2P.sub.2, Ca.sub.1In.sub.2P.sub.2, Cl.sub.9Cs.sub.3Ru.sub.2, Cl.sub.9Cs.sub.3Ti.sub.2, Cs.sub.3F.sub.9Fe.sub.2, Cs.sub.3I.sub.9Zr.sub.2, In.sub.2P.sub.2Sr.sub.1, K.sub.1Nb.sub.1S.sub.2, K.sub.1Nb.sub.1Se.sub.2, Li.sub.1Nb.sub.1O.sub.2, Li.sub.1Nb.sub.1S.sub.2, Na.sub.1Nb.sub.1O.sub.2, Na.sub.1Nb.sub.1S.sub.2, Na.sub.1Nb.sub.1Se.sub.2, H.sub.12B.sub.12Cs.sub.2, H.sub.12B.sub.12K.sub.2, H.sub.12B.sub.12Rb.sub.2, H.sub.12B.sub.12Tl.sub.2, H.sub.20B.sub.12N.sub.2, As.sub.1Rb.sub.3Se.sub.16, K.sub.3P.sub.1Se.sub.16, H.sub.6Cl.sub.2N.sub.2, F.sub.6O.sub.2Pt.sub.1, Ag.sub.1Cu.sub.4Tb.sub.1, Au.sub.1Sc.sub.1Sn.sub.1, Bi.sub.1Co.sub.1Zr.sub.1, Bi.sub.1Lu.sub.1Ni.sub.1, Bi.sub.1Ni.sub.1Sc.sub.1, Bi.sub.1Ni.sub.1Y.sub.1, Co.sub.1Sb.sub.1Ti.sub.1, Cu.sub.1Rb.sub.1Te.sub.1, Fe.sub.1Nb.sub.1Sb.sub.1, Fe.sub.1Sb.sub.1V.sub.1, Ge.sub.1Pt.sub.1Ti.sub.1, Hf.sub.1Ni.sub.1Sn.sub.1, Hf.sub.1Pd.sub.1Sn.sub.1, Lu.sub.1Ni.sub.1Sb.sub.1, Nb.sub.1Ru.sub.1Sb.sub.1, Ni.sub.1Sb.sub.1Sc.sub.1, Ni.sub.1Sb.sub.1Y.sub.1, Ni.sub.1Sn.sub.1Ti.sub.1, Ni.sub.1Sn.sub.1Zr.sub.1, O.sub.4S.sub.1Zn.sub.1, Pd.sub.1Sb.sub.1Sc.sub.1, Pt.sub.1Sb.sub.1Sc.sub.1, Pt.sub.1Sb.sub.1Y.sub.1, Pt.sub.1Sn.sub.1Ti.sub.1, Rh.sub.1Sb.sub.1Th.sub.1, Ru.sub.1Sb.sub.1Ta.sub.1, Ru.sub.1Sb.sub.1V.sub.1, Ag.sub.6Ge.sub.10P.sub.12, Nb.sub.3Sb.sub.2Te.sub.5, In.sub.3O.sub.8P.sub.2, Fe.sub.2Ge.sub.1Ti.sub.1, H.sub.6B.sub.6Cs.sub.2, H.sub.6B.sub.6K.sub.2, Ag.sub.2Mo.sub.1O.sub.4, Ag.sub.6K.sub.2S.sub.4, Al.sub.1Cs.sub.1O.sub.2, Al.sub.1K.sub.1O.sub.2, Al.sub.1O.sub.2Rb.sub.1, Al.sub.2Cd.sub.1O.sub.4, Al.sub.2Cd.sub.1S.sub.4, Al.sub.2Cd.sub.1Se.sub.4, Al.sub.2Hg.sub.1S.sub.4, Al.sub.2Hg.sub.1Se.sub.4, Al.sub.2O.sub.4Zn.sub.1, Al.sub.2S.sub.4Zn.sub.1, Al.sub.2Se.sub.4Zn.sub.1, As.sub.4He.sub.2O.sub.6, Ba.sub.2Ge.sub.4S.sub.10, Cd.sub.1Ga.sub.2O.sub.4, Cd.sub.1In.sub.2S.sub.4, Cd.sub.1In.sub.2Se.sub.4, Cd.sub.1Lu.sub.2S.sub.4, Cd.sub.1Lu.sub.2Se.sub.4, Cd.sub.1O.sub.4Rh.sub.2, Cd.sub.1S.sub.4Sc.sub.2, Cd.sub.1S.sub.4Y.sub.2, Cd.sub.1Sc.sub.2Se.sub.4, Cd.sub.1Se.sub.4Y.sub.2, Cd.sub.2O.sub.4Si.sub.1, Cd.sub.2O.sub.4Sn.sub.1, Cl.sub.4Li.sub.2Zn.sub.1, Cs.sub.1N.sub.2Nb.sub.1, Ga.sub.2O.sub.4Zn.sub.1, Hg.sub.1In.sub.2S.sub.4, In.sub.2O.sub.4Zn.sub.1, In.sub.2S.sub.4Zn.sub.1, K.sub.8Sb.sub.4Sn.sub.1, Lu.sub.2Mg.sub.1S.sub.4, Lu.sub.2Mg.sub.1Se.sub.4, Mg.sub.1O.sub.4Rh.sub.2, Mg.sub.1Se.sub.4Y.sub.2, O.sub.4Rh.sub.2Zn.sub.1, O.sub.4Sn.sub.1Zn.sub.2, S.sub.4Sc.sub.2Zn.sub.1, S.sub.4Y.sub.2Zn.sub.1, Se.sub.4Y.sub.2Zn.sub.1, Ag.sub.1Bi.sub.1P.sub.2S.sub.6, As.sub.1Cl.sub.3F.sub.6S.sub.3, As.sub.2Cd.sub.1Ge.sub.1K.sub.1, As.sub.2Cd.sub.1Ge.sub.1Rb.sub.1, Bi.sub.8Cs.sub.4Hg.sub.2Se.sub.18, B.sub.18Hg.sub.2Rb.sub.4Se.sub.18, B.sub.3Cu.sub.1Li.sub.3O.sub.7, Br.sub.10O.sub.1Ta.sub.2Te.sub.4, C.sub.10H.sub.18Cu.sub.2N.sub.2O.sub.10, C.sub.10H.sub.18N.sub.2O.sub.10Rh.sub.2, C.sub.1F.sub.3Hg.sub.1O.sub.3S.sub.1, C.sub.1H.sub.5Eu.sub.1O.sub.7P.sub.1, C.sub.1H.sub.5Nd.sub.1O.sub.7P.sub.1, C.sub.1H.sub.5O.sub.7P.sub.1Pr.sub.1, C.sub.2H.sub.10Ga.sub.2Ge.sub.4N.sub.2O.sub.12, C.sub.2H.sub.26B.sub.12N.sub.8, C.sub.2H.sub.6Ca.sub.1O.sub.7, C.sub.2H.sub.6K.sub.2O.sub.13S.sub.1U.sub.1, C.sub.2H.sub.6O.sub.12U.sub.2, C.sub.2H.sub.8Br.sub.3Cu.sub.1N.sub.1O.sub.1, C.sub.2H.sub.8In.sub.2O.sub.14Se.sub.2, C.sub.3H.sub.7F.sub.1N.sub.1O.sub.5Sn.sub.1, C.sub.4H.sub.11N.sub.1O.sub.10, C.sub.4H.sub.12Ba.sub.2N.sub.2O.sub.10S.sub.2, C.sub.4H.sub.12Fe.sub.1O.sub.6S.sub.4, C.sub.4H.sub.12N.sub.6O.sub.14Se.sub.2U.sub.2, C.sub.4H.sub.14F.sub.3N.sub.1O.sub.2V.sub.1, C.sub.4H.sub.16Cl.sub.6Cu.sub.2N.sub.2, C.sub.4H.sub.7Cs.sub.1O.sub.10, C.sub.4H.sub.7K.sub.1O.sub.10, C.sub.5H.sub.10N.sub.1O.sub.6, C.sub.6F.sub.6Na.sub.4O.sub.12Sn.sub.4, C.sub.6H.sub.12Fe.sub.1N.sub.8O.sub.8, C.sub.6H.sub.4Na.sub.4Np.sub.2O.sub.18, C.sub.8H.sub.20N.sub.6O.sub.18S.sub.2U.sub.2, C.sub.8H.sub.28F.sub.6N.sub.2O.sub.4V.sub.2, C.sub.8H.sub.4K.sub.6N.sub.8O.sub.6Os.sub.2S.sub.2, C.sub.8O.sub.2Mo.sub.2O.sub.8, Cl.sub.10Mo.sub.2N.sub.4S.sub.4, Cl.sub.10Nb.sub.2O.sub.1Te.sub.4, Cl.sub.2N.sub.4O.sub.12S.sub.10, Cs.sub.2P.sub.2Se.sub.6Zn.sub.1, Cu.sub.1O.sub.9Se.sub.3Sr.sub.2, Cu.sub.2Na.sub.2O.sub.11Si.sub.4, F.sub.2N.sub.2O.sub.4Xe.sub.1, F.sub.2O.sub.7Te.sub.2V.sub.2, H.sub.10F.sub.8In.sub.2N.sub.2O.sub.2, H.sub.12I.sub.8Mg.sub.1O.sub.6, H.sub.12Mg.sub.1O.sub.12S.sub.2, H.sub.12O.sub.12S.sub.2Zn.sub.1, H.sub.14Hg.sub.2O.sub.14Te.sub.2, H.sub.14N.sub.4O.sub.8S.sub.2, H.sub.16B.sub.12Na.sub.2O.sub.14S.sub.6, H.sub.18O.sub.2Se.sub.4Sn.sub.1Sr.sub.2, H.sub.24Li.sub.2N.sub.8Te.sub.2, H.sub.26B.sub.20K.sub.4O.sub.4, H.sub.32N.sub.14Se.sub.6Sn.sub.2, H.sub.34Cl.sub.4Cr.sub.2N.sub.8O.sub.6, H.sub.4Cu.sub.2Na.sub.2O.sub.13Si.sub.4, H.sub.6B.sub.2F.sub.8N.sub.2, H.sub.6Cs.sub.2O.sub.12P.sub.4, H.sub.6F.sub.22N.sub.2Sb.sub.4, H.sub.6O.sub.12P.sub.4Rb.sub.2, H.sub.8Na.sub.6O.sub.14P.sub.4, K.sub.4Mn.sub.1Mo.sub.3O.sub.12, K.sub.4N.sub.2O.sub.14S.sub.4, Lu.sub.1Na.sub.1P.sub.2S.sub.6, Na.sub.1P.sub.2S.sub.6Tb.sub.1, Na.sub.1P.sub.2S.sub.6Y.sub.1, P.sub.2Rb.sub.2Se.sub.6Zn.sub.1, C.sub.4H.sub.3Cs.sub.1O.sub.14U.sub.2, C.sub.4H.sub.5K.sub.1O.sub.15U.sub.2, C.sub.4H.sub.5O.sub.15Rb.sub.1U.sub.2, Cs.sub.2Cu.sub.2O.sub.19S.sub.18, Cu.sub.2Ge.sub.4O.sub.13Sc.sub.2, K.sub.3P.sub.5Ru.sub.1Se.sub.10, Ag.sub.2Br.sub.6Hg.sub.7P.sub.8, Ag.sub.2Hg.sub.7I.sub.6P.sub.8, Au.sub.2K.sub.2P.sub.2Se.sub.6, Au.sub.2La.sub.4O.sub.2P.sub.4, Au.sub.2P.sub.2Se.sub.6Tl.sub.2, C.sub.2Cl.sub.2O.sub.4Pb.sub.2, C.sub.2H.sub.2Ag.sub.1O.sub.9S.sub.1Tb.sub.1, C.sub.2H.sub.4Ca.sub.2Cl.sub.2O.sub.6, C.sub.2H.sub.6N.sub.2Rb.sub.2, C.sub.4H.sub.6B.sub.12Cs.sub.2I.sub.12N.sub.2, C.sub.4H.sub.8N.sub.2O.sub.4, H.sub.20B.sub.12Li.sub.2O.sub.4, In.sub.1K.sub.2P.sub.2S.sub.7, La.sub.2P.sub.4S.sub.14Tl.sub.4, C.sub.8H.sub.12Ag.sub.2N.sub.4O.sub.4, Ag.sub.1As.sub.1K.sub.1S.sub.2, Ag.sub.1Cu.sub.1O.sub.4P.sub.1, Ag.sub.2Cs.sub.2P.sub.2Se.sub.6, Ag.sub.2O.sub.8P.sub.2V.sub.1, Ag.sub.2P.sub.2Se.sub.6Tl.sub.2, Al.sub.1As.sub.1Cu.sub.1O.sub.5, Al.sub.1Cu.sub.1O.sub.8P.sub.2Rb.sub.1, Al.sub.2Br.sub.6N.sub.2S.sub.2, Al.sub.2Br.sub.6N.sub.2Se.sub.2, As.sub.1F.sub.6N.sub.2S.sub.3, Ba.sub.1La.sub.1Sb.sub.2Se.sub.6, Ba.sub.1Mo.sub.2O.sub.16P.sub.4, C.sub.10F.sub.4Mn.sub.2O.sub.8, Cl.sub.2Bi.sub.2O.sub.12Ru.sub.4, C.sub.1O.sub.6P.sub.1Sn.sub.2, C.sub.2As.sub.2F.sub.12N.sub.2Te.sub.4, C.sub.2Cl.sub.10N.sub.2Sb.sub.2, C.sub.2Cu.sub.1O.sub.6Tl.sub.2, C.sub.2F.sub.6N.sub.4O.sub.6S.sub.4Se.sub.4, C.sub.2F.sub.6N.sub.4O.sub.6S.sub.8, C.sub.2H.sub.1Cs.sub.1O.sub.4, C.sub.2H.sub.2Na.sub.2O.sub.6, C.sub.2H.sub.4Cs.sub.2O.sub.6, C.sub.2H.sub.4F.sub.6O.sub.6S.sub.2Si.sub.2, C.sub.2H.sub.4Fe.sub.4O.sub.14P.sub.2, C.sub.2H.sub.4O.sub.14P.sub.2Zn.sub.4, C.sub.2H.sub.6K.sub.2N.sub.2, C.sub.2H.sub.6K.sub.4N.sub.8O.sub.10, C.sub.3H.sub.2Na.sub.1O.sub.7Zn.sub.1, C.sub.3H.sub.3Ba.sub.1O.sub.7, C.sub.4H.sub.12Cl.sub.8Nb.sub.2S.sub.2, C.sub.4H.sub.18B.sub.2P.sub.2, C.sub.4H.sub.2Fe.sub.2O.sub.6, C.sub.4H.sub.2O.sub.8Tl.sub.2, C.sub.6H.sub.10O.sub.6Sn.sub.1, C.sub.6H.sub.4Mg.sub.2Na.sub.2O.sub.14, C.sub.6O.sub.16Rb.sub.2U.sub.2, Cd.sub.1Mo.sub.1O.sub.6P.sub.1, Cd.sub.1P.sub.2Rb.sub.2Se.sub.6, Cl.sub.12Mo.sub.2O.sub.4P.sub.2, Cs.sub.2O.sub.12P.sub.2U.sub.2, Cs.sub.4O.sub.2S.sub.10V.sub.2, Cu.sub.1P.sub.1Se.sub.3Tl.sub.1, Cu.sub.2P.sub.2S.sub.6Tl.sub.2, Cu.sub.2P.sub.2Se.sub.6Tl.sub.2, F.sub.2N.sub.4O.sub.6S.sub.8, Fe.sub.1I.sub.1N.sub.2O.sub.2, Fe.sub.1K.sub.2P.sub.2S.sub.6, Fe.sub.1K.sub.2P.sub.2Se.sub.6, Fe.sub.2K.sub.1O.sub.8P.sub.2, H.sub.10Br.sub.2N.sub.2O.sub.2, H.sub.10N.sub.2O.sub.8P.sub.2, H.sub.12N.sub.4O.sub.4P.sub.2, H.sub.12O.sub.6P.sub.2Rb.sub.4S.sub.6, H.sub.14Ni.sub.1O.sub.12P.sub.2, H.sub.2Hg.sub.6N.sub.4O.sub.14, H.sub.2O.sub.6P.sub.2Tl.sub.2, H.sub.3K.sub.1O.sub.6P.sub.2, H.sub.5O.sub.7P.sub.1V.sub.1, H.sub.6Cs.sub.2N.sub.2P.sub.4, H.sub.8K.sub.4O.sub.4P.sub.2S.sub.6, H.sub.8Li.sub.4O.sub.12P.sub.2, Hg.sub.1K.sub.2P.sub.2Se.sub.6, K.sub.2Mg.sub.1P.sub.2Se.sub.6, K.sub.2P.sub.2Se.sub.6Zn.sub.1, Li.sub.2O.sub.8P.sub.2V.sub.1, Mo.sub.2O.sub.16P.sub.4Sr.sub.1, Na.sub.2O.sub.8P.sub.2V.sub.1, Ni.sub.1O.sub.10P.sub.2V.sub.2, Ag.sub.3P.sub.4Si.sub.2Tl.sub.5, Ba.sub.1In.sub.2O.sub.14P.sub.4, Ba.sub.1La.sub.2O.sub.14Te.sub.5, Ba.sub.1O.sub.8P.sub.2Th.sub.1, Ba.sub.2Gd.sub.2O.sub.13Si.sub.4, Bi.sub.2Cl.sub.8Hg.sub.3Te.sub.2, C.sub.1Ag.sub.2Cl.sub.1N.sub.1O.sub.4S.sub.1, C.sub.2Ag.sub.1N.sub.2Na.sub.1, C.sub.2F.sub.6Na.sub.2O.sub.4Sb.sub.2, C.sub.2H.sub.2Cs.sub.2O.sub.5, C.sub.2H.sub.2K.sub.2O.sub.5, C.sub.2H.sub.2K.sub.2O.sub.6, C.sub.2H.sub.2O.sub.5Rb.sub.2, C.sub.2H.sub.4B.sub.2O.sub.2, C.sub.2H.sub.6Fe.sub.1N.sub.2O.sub.4, C.sub.2H.sub.8Cl.sub.3Cu.sub.1N.sub.1, C.sub.2H.sub.8I.sub.2N.sub.4S.sub.2, C.sub.2N.sub.2O.sub.6S.sub.2, C.sub.4H.sub.12Mg.sub.1O.sub.6S.sub.4, C.sub.4H.sub.16F.sub.4Mn.sub.1N.sub.1O.sub.2, C.sub.4H.sub.4O.sub.10Th.sub.1, C.sub.4H.sub.6Ba.sub.1O.sub.10, C.sub.4H.sub.6Cd.sub.1O.sub.2S.sub.4, C.sub.4H.sub.6Na.sub.2O.sub.7, C.sub.4H.sub.6O.sub.7Sr.sub.1, C.sub.4H.sub.8Cd.sub.1Cl.sub.2N.sub.2, C.sub.4H.sub.8O.sub.12Th.sub.1, C.sub.4H.sub.8O.sub.8Zn.sub.1, C.sub.6H.sub.6Ag.sub.3Co.sub.1N.sub.8, Cd.sub.3Na.sub.2O.sub.10Si.sub.3, Cl.sub.3Na.sub.2O.sub.12Te.sub.4Y.sub.3, Cu.sub.1Mo.sub.2O.sub.8Sb.sub.1, Eu.sub.1O.sub.8Rb.sub.1S.sub.2, F.sub.9K.sub.5O.sub.4U.sub.2, H.sub.14Na.sub.3Np.sub.1O.sub.12, H.sub.2F.sub.4K.sub.1Mn.sub.1O.sub.1, H.sub.2F.sub.4Mn.sub.1O.sub.1Rb.sub.1, H.sub.4Ca.sub.2O.sub.13P.sub.3V.sub.1, H.sub.4F.sub.4O.sub.2Rb.sub.1V.sub.1, H.sub.8Ni.sub.1O.sub.10V.sub.2, Hg.sub.1In.sub.1S.sub.3Tl.sub.1, Hg.sub.1O.sub.7P.sub.2Pd.sub.1, K.sub.2Rb.sub.2Re.sub.6S.sub.13, K.sub.4Mo.sub.8O.sub.52P.sub.12, O.sub.14Sr.sub.3Te.sub.4U.sub.1, As.sub.2Cl.sub.3Hg.sub.3Tl.sub.1, Br.sub.3Hg.sub.3Sb.sub.2Tl.sub.1, H.sub.8Cs.sub.4O.sub.4P.sub.2Se.sub.6, H.sub.8O.sub.4P.sub.2Rb.sub.4Se.sub.6, La.sub.2O.sub.8S.sub.2Ta.sub.3, Cl.sub.1N.sub.2S.sub.1Se.sub.2, Cr.sub.2Li.sub.4N.sub.6Sr.sub.2, H.sub.6F.sub.6N.sub.2Si.sub.1, H.sub.6F.sub.1N.sub.1O.sub.2, H.sub.6F.sub.5N.sub.2Sb.sub.1, As.sub.6Ba.sub.4Cd.sub.3Li.sub.2, Ba.sub.4Cd.sub.3Li.sub.2P.sub.6, C.sub.4H.sub.12Cl.sub.8Nb.sub.2Se.sub.2, H.sub.8K.sub.4O.sub.4P.sub.2Se.sub.6, Ba.sub.1O.sub.7Sr.sub.1Ta.sub.2, Br.sub.9Cs.sub.5Nb.sub.2S.sub.4, Br.sub.9Nb.sub.2S.sub.4Tl.sub.5, Cl.sub.8Cs.sub.5I.sub.1S.sub.4U.sub.2, Cl.sub.9Cs.sub.5Nb.sub.2S.sub.4, Cl.sub.9Nb.sub.2S.sub.4Tl.sub.5, F.sub.1K.sub.1Nb.sub.2O.sub.6Sr.sub.1, H.sub.1La.sub.2Li.sub.1O.sub.3, La.sub.1O.sub.11Sr.sub.2Ta.sub.3, C.sub.4N.sub.4Pt.sub.1Rb.sub.2, Cs.sub.1F.sub.3Mo.sub.1O.sub.2, H.sub.4Al.sub.1F.sub.5O.sub.2Zn.sub.1, K.sub.1Na.sub.2O.sub.15Si.sub.6Y.sub.1, La.sub.1Nb.sub.2O.sub.7Rb.sub.1, Li.sub.2O.sub.7P.sub.2Pd.sub.1, O.sub.14P.sub.4Pd.sub.3Tl.sub.2, C.sub.4Cd.sub.1Hg.sub.1N.sub.4S.sub.4, C.sub.4Cd.sub.1Hg.sub.1N.sub.4Se.sub.4, C.sub.4Cd.sub.1N.sub.4S.sub.4Zn.sub.1, C.sub.4Cd.sub.1N.sub.4Se.sub.4Zn.sub.1, C.sub.4Co.sub.1Cs.sub.1O.sub.4, C.sub.4Hg.sub.1N.sub.4S.sub.4Zn.sub.1, C.sub.4Hg.sub.1N.sub.4Se.sub.4Zn.sub.1, Cl.sub.1K.sub.2Na.sub.1O.sub.6S.sub.2, Ba.sub.1O.sub.7Si.sub.2V.sub.1, C.sub.4H.sub.8In.sub.1K.sub.1O.sub.12, C.sub.4H.sub.8K.sub.1Lu.sub.1O.sub.12, C.sub.8K.sub.1O.sub.8Y.sub.1, Cl.sub.2K.sub.5Na.sub.1O.sub.12S.sub.4, Br.sub.4Cs.sub.2I.sub.2Pd.sub.1, Br.sub.4I.sub.2Pd.sub.1Rb.sub.2, Cl.sub.4Cs.sub.2I.sub.2Pd.sub.1, Ba.sub.4Bi.sub.3K.sub.1O.sub.1, Ba.sub.4K.sub.1O.sub.1Sb.sub.3, Ba.sub.4O.sub.1Rb.sub.1Sb.sub.3, As.sub.2Cs.sub.2O.sub.8Th.sub.1, Ce.sub.1K.sub.2O.sub.8P.sub.2, Cl.sub.2Cs.sub.2N.sub.2O.sub.6Pb.sub.1, As.sub.1K.sub.1Ni.sub.1O.sub.4, As.sub.1Na.sub.1Ni.sub.1O.sub.4, As.sub.2Ba.sub.1Ni.sub.2O.sub.8, Ba.sub.1Ni.sub.2O.sub.8P.sub.2, C.sub.4H.sub.4Cd.sub.1O.sub.6, Ca.sub.2Li.sub.6Mn.sub.2N.sub.6, Br.sub.15Cs.sub.2La.sub.1O.sub.3Ta.sub.6, Cl.sub.18Cs.sub.1Lu.sub.11Nb.sub.6, C.sub.8H.sub.24Cl.sub.18N.sub.2Nb.sub.6, Ce.sub.1O.sub.1P.sub.1Zn.sub.1, H.sub.12B.sub.12Br.sub.1Cs.sub.3, H.sub.12B.sub.12Br.sub.1K.sub.3, H.sub.12B.sub.12Br.sub.1Rb.sub.3, H.sub.12B.sub.12Cl.sub.1Cs.sub.3, H.sub.12B.sub.12Cl.sub.1Rb.sub.3, H.sub.12B.sub.12Cs.sub.3I.sub.1, H.sub.12B.sub.12I.sub.1K.sub.3, H.sub.12B.sub.12I.sub.1Rb.sub.3, As.sub.2Ba.sub.6Na.sub.2O.sub.17Ru.sub.2, Ba.sub.5Br.sub.2O.sub.9Ru.sub.2, Ba.sub.6Na.sub.2O.sub.17Ru.sub.2V.sub.2, C.sub.4Fe.sub.2Na.sub.6O.sub.16S.sub.1, Cs.sub.3Mo.sub.4O.sub.16P.sub.3, Ag.sub.3Ge.sub.3P.sub.6Sn.sub.2, Ag.sub.3P.sub.6Si.sub.3Sn.sub.2, C.sub.4Cd.sub.1K.sub.2N.sub.4, C.sub.4Hg.sub.1K.sub.2N.sub.4 and C.sub.4K.sub.2N.sub.4Zn.sub.1.

4. A method for converting a compound, which has been selected by a method comprising a. identifying all topological insulators in an Inorganic Crystal Structure Database (“ICSD”), b. calculating Real Space Invariants of valence bands for all these topological insulators, c. identifying in all these topological insulators Wyckoff Positions where irreducible Wannier Charge Centers (WCCs) are localized, and then d. selecting as potentially catalytic active compound a topological insulator wherein the Wyckoff Position of WCCs is not occupied by any atom (=Wyckoff Position of obstructed WCCs, =WP.sub.OAI) of the topological insulator, or, which has been selected from the list consisting of: Ba.sub.1P.sub.8, I.sub.4P.sub.2, Mn.sub.1P.sub.4, Nb.sub.2Se.sub.9, Os.sub.1P.sub.4, P.sub.3Ru.sub.1, P.sub.4Ru.sub.1, P.sub.5Re.sub.2, Re.sub.1S.sub.2, Re.sub.1Se.sub.2, S.sub.2Tc.sub.1, Lu.sub.1P.sub.5, P.sub.5Y.sub.1, As.sub.1Ge.sub.1, As.sub.1Si.sub.1, Ba.sub.1P.sub.3, Bi.sub.1S.sub.2, Bi.sub.1Se.sub.2, Br.sub.4Nb.sub.1, Br.sub.6Si.sub.2, C.sub.22F.sub.14, C.sub.2Ca.sub.1, Ca.sub.5P.sub.8, Cl.sub.3Mo.sub.1, Cl.sub.3Y.sub.2, Cl.sub.4Nb.sub.1, Cl.sub.4Ta.sub.1, Cs.sub.5Te.sub.3, Ga.sub.1Te.sub.1, Ge.sub.1P.sub.1, Hg.sub.1O.sub.2, In.sub.1Se.sub.1, K.sub.1Sb.sub.2, Na.sub.1P.sub.2, O.sub.2Rb.sub.2, P.sub.3Sr.sub.1, Rb.sub.1Sb.sub.2, Ag.sub.1P.sub.2, As.sub.2Co.sub.1, As.sub.2Ir.sub.1, As.sub.2La.sub.1, As.sub.2Rh.sub.1, Au.sub.1O.sub.1, B.sub.2F.sub.4, B.sub.4Mn.sub.1, Ca.sub.1O.sub.2, Cd.sub.1P.sub.4, Co.sub.1P.sub.2, Cs.sub.1Te.sub.4, Cs.sub.2I.sub.8, Cu.sub.1P.sub.2, Fe.sub.1P.sub.4, Fe.sub.1S.sub.1, Ga.sub.2I.sub.3, Hg.sub.2N.sub.6, Ir.sub.1N.sub.2, Ir.sub.1P.sub.2, Ir.sub.1Sb.sub.2, La.sub.1P.sub.7, La.sub.1S.sub.2, La.sub.1Se.sub.2, Li.sub.2O.sub.2, Mg.sub.1P.sub.4, N.sub.2O.sub.4, N.sub.2S.sub.2, O.sub.2Tc.sub.1, P.sub.2Rh.sub.1, P.sub.7Pb.sub.1, Rh.sub.1Sb.sub.2, Rh.sub.1Si.sub.1, Sb.sub.1Zn.sub.1, Ba.sub.1S.sub.2, Ba.sub.1Se.sub.2, C.sub.2Ba.sub.1, C.sub.2Sr.sub.1, I.sub.6Pt.sub.2, Ni.sub.1P.sub.2, O.sub.2Si.sub.1, P.sub.2Pd.sub.1, S.sub.2Yb.sub.1, S.sub.4V.sub.1, Se.sub.3Tl.sub.2, Se.sub.9V.sub.2, Te.sub.3Tl.sub.2, As.sub.3Ca.sub.4, Cs.sub.2Te.sub.2, K.sub.2O.sub.2, Rb.sub.2Te.sub.2, As.sub.2Fe.sub.1, As.sub.2Os.sub.1, As.sub.2Ru.sub.1, C.sub.1N.sub.1, Fe.sub.1P.sub.2, Fe.sub.1S.sub.2, Fe.sub.1Sb.sub.2, Fe.sub.1Se.sub.2, In.sub.1S.sub.1, N.sub.2Pt.sub.1, Os.sub.1P.sub.2, Os.sub.1Sb.sub.2, P.sub.2Ru.sub.1, Ru.sub.1Sb.sub.2, Ru.sub.1Te.sub.2, Ge.sub.3Os.sub.2, Ge.sub.3Ru.sub.2, Os.sub.2Si.sub.3, Ru.sub.2Si.sub.3, As.sub.1Cd.sub.1, As.sub.1Zn.sub.1, B.sub.2Cl.sub.4, C.sub.2N.sub.2, Cd.sub.1Sb.sub.1, Cl.sub.1O.sub.2, P.sub.4Re.sub.1, P.sub.4Tc.sub.1, Pd.sub.1S.sub.2, B.sub.2Fe.sub.1, Na.sub.1P.sub.5, P.sub.3Re.sub.1, P.sub.3Tc.sub.1, Ba.sub.5P.sub.4, Ba.sub.5Sb.sub.4, K.sub.1Tl.sub.1, Ba.sub.1O.sub.2, F.sub.3La.sub.1, As.sub.6Cs.sub.4, As.sub.6Rb.sub.4, Cs.sub.4P.sub.6, K.sub.4P.sub.6, P.sub.6Rb.sub.4, Al.sub.2Ru.sub.1, Ga.sub.2Os.sub.1, Ga.sub.2Ru.sub.1, C.sub.2Li.sub.2, C.sub.2Na.sub.2, Cs.sub.2O.sub.2, Cs.sub.2S.sub.2, Rb.sub.2S.sub.2, B.sub.3Si.sub.1, H.sub.6Ru.sub.1, O.sub.64Si.sub.32, K.sub.5Te.sub.3, B.sub.10F.sub.12, Li.sub.1Si.sub.1, C.sub.1N.sub.2, Cs.sub.1In.sub.3, Ga.sub.3K.sub.1, Ga.sub.3Rb.sub.1, H.sub.8Si.sub.1, C.sub.2Mg.sub.1, Fe.sub.1Ga.sub.3, Ga.sub.3Os.sub.1, Ga.sub.3Ru.sub.1, In.sub.3Ru.sub.1, Li.sub.2S.sub.2, B.sub.4Os.sub.1, Cl.sub.2Zn.sub.1, Hg.sub.1I.sub.2, Hg.sub.2I.sub.4, Al.sub.2Os.sub.1, As.sub.1Ca.sub.2, Bi.sub.1Ca.sub.2, Br.sub.1Hg.sub.1, Br.sub.2Hg.sub.2, Cl.sub.2Hg.sub.2, F.sub.2Hg.sub.2, Ga.sub.3K.sub.2, Hg.sub.1I.sub.1, Hg.sub.2I.sub.2, In.sub.3Rb.sub.2, O.sub.2Sr.sub.1, Ba.sub.1Te.sub.2, O.sub.2Zn.sub.1, S.sub.2Sr.sub.1, Au.sub.1Br.sub.1, Au.sub.1Cl.sub.1, O.sub.3U.sub.1, Br.sub.12Zr.sub.6, Cl.sub.12Zr.sub.6, I.sub.12Zr.sub.6, I.sub.6Si.sub.2, As.sub.1B.sub.6, As.sub.2B.sub.12, B.sub.12P.sub.2, B.sub.12Si.sub.3, B.sub.6O.sub.1, B.sub.6P.sub.1, Br.sub.8Nb.sub.3, C.sub.1B.sub.4, C.sub.3B.sub.12, Ga.sub.1S.sub.1, I.sub.8Nb.sub.3, Cr.sub.1N.sub.2, Ga.sub.1Se.sub.1, Mo.sub.1N.sub.2, N.sub.2W.sub.1, Ca.sub.1P.sub.1, Ca.sub.2P.sub.2, K.sub.2S.sub.2, K.sub.2Se.sub.2, Na.sub.2O.sub.2, Na.sub.2S.sub.2, P.sub.1Sr.sub.1, C.sub.2Os.sub.1, Hf.sub.1N.sub.2, K.sub.2Te.sub.2, Mo.sub.1S.sub.2, Mo.sub.1Se.sub.2, Mo.sub.1Te.sub.2, Na.sub.1S.sub.1, Na.sub.2Se.sub.2, S.sub.2W.sub.1, Se.sub.2W.sub.1, Te.sub.2W.sub.1, As.sub.2Pt.sub.1, Cd.sub.1O.sub.2, Cd.sub.1S.sub.2, Cd.sub.1Se.sub.2, Fe.sub.1Te.sub.2, Mg.sub.1O.sub.2, Mg.sub.1Se.sub.2, Mg.sub.1Te.sub.2, N.sub.2Pd.sub.1, Os.sub.1S.sub.2, Os.sub.1Se.sub.2, Os.sub.1Te.sub.2, P.sub.2Pt.sub.1, Ru.sub.1S.sub.2, Ru.sub.1Se.sub.2, S.sub.2Zn.sub.1, Se.sub.2Zn.sub.1, Ag.sub.1Br.sub.1, Ag.sub.1Cl.sub.1, Ag.sub.1I.sub.1, B.sub.4Fe.sub.1, Be.sub.5Pt.sub.1, Br.sub.1Cu.sub.1, Cd.sub.1S.sub.1, Cd.sub.1Se.sub.1, Cd.sub.1Te.sub.1, Cl.sub.1Cu.sub.1, Cu.sub.1I.sub.1, Cu.sub.5Tb.sub.1, O.sub.1Zn.sub.1, S.sub.1Sn.sub.1, S.sub.1Zn.sub.1, Se.sub.1Zn.sub.1, Te.sub.1Zn.sub.1, B.sub.6Ca.sub.1, B.sub.6Si.sub.1, B.sub.6Sr.sub.1 and B.sub.1Li.sub.1, Al.sub.2Cd.sub.2Cl.sub.8, Al.sub.4Cl.sub.14Te.sub.4, As.sub.1Fe.sub.1S.sub.1, Au.sub.1Br.sub.8Te.sub.1, B.sub.18Cs.sub.8Si.sub.8, B.sub.18Rb.sub.8S.sub.1, B.sub.18Rb.sub.8Se.sub.18, B.sub.8Br.sub.6P.sub.4, Bi.sub.2Br.sub.8Te.sub.4, Bi.sub.4Cl.sub.16Te.sub.14, Bi.sub.6Cl.sub.20Te.sub.4, Br.sub.12Ta.sub.2Te.sub.4, Br.sub.1Mo.sub.1Te.sub.4, Br.sub.2Nb.sub.1S.sub.2, Br.sub.2Nb.sub.1Se.sub.2, C.sub.22Co.sub.6O.sub.18, C.sub.2I.sub.10La.sub.6, C.sub.2O.sub.4Pb.sub.1, Cl.sub.12Ta.sub.2Te.sub.4, Cl.sub.18P.sub.2Re.sub.2, Cl.sub.2Nb.sub.1Se.sub.2, Cl.sub.5O.sub.4Re.sub.2, Cl.sub.6Hf.sub.1Te.sub.4, Cl.sub.8Ga.sub.2Hg.sub.2, Cs.sub.1Sb.sub.2Se.sub.4, Cs.sub.2S.sub.6Sn.sub.2, Cs.sub.2S.sub.8Sb.sub.4, Cs.sub.2Se.sub.6Sn.sub.2, Cs.sub.4P.sub.2Se.sub.10, Cu.sub.4P.sub.3Se.sub.4, F.sub.12I.sub.4Sb.sub.2, F.sub.12Sb.sub.2Te.sub.4, Ge.sub.1Li.sub.1Te.sub.2, Ge.sub.2Te.sub.6Tl.sub.6, Hg.sub.1O.sub.3V.sub.1, Hg.sub.2P.sub.2S.sub.6, I.sub.12Nb.sub.2Te.sub.8, I.sub.1Ta.sub.1Te.sub.4, In.sub.2O.sub.5P.sub.1, K.sub.2O.sub.8S.sub.2, K.sub.2Sb.sub.4Se.sub.8, La.sub.6O.sub.18Re.sub.4, Li.sub.1Mo.sub.1S.sub.2, Mo.sub.4N.sub.14Sr.sub.10, Na.sub.2O.sub.8S.sub.2, Rb.sub.2Sb.sub.4Se.sub.8, Si.sub.2Te.sub.6Tl.sub.6, As.sub.2Ga.sub.2Sr.sub.1, C.sub.2Ca.sub.1O.sub.4, Al.sub.2Na.sub.7Sb.sub.5, Ba.sub.3P.sub.6Si.sub.4, Bi.sub.9I.sub.3Rh.sub.2, Cl.sub.7Nb.sub.3Se.sub.5, Ir.sub.2Se.sub.5Sn.sub.1, K.sub.4P.sub.8Te.sub.4, Al.sub.1O.sub.4W.sub.1, As.sub.1Cl.sub.2Hg.sub.2, As.sub.2F.sub.12I.sub.4, As.sub.3Ba.sub.2Cd.sub.2, As.sub.3Sr.sub.2Zn.sub.2, Ba.sub.5Cr.sub.1N.sub.5, Bi.sub.4Br.sub.2Ru.sub.1, Br.sub.10Te.sub.4Zr.sub.2, C.sub.1B.sub.2O.sub.2, C.sub.1N.sub.1Th.sub.1, C.sub.2Br.sub.2Gd.sub.2, C.sub.2La.sub.2O.sub.2, C.sub.4Cs.sub.2O.sub.4, C.sub.4Li.sub.2O.sub.4, C.sub.4O.sub.4Rb.sub.2, Cd.sub.1P.sub.1S.sub.3, Cd.sub.2P.sub.2S.sub.6, Cd.sub.6Sb.sub.12Sr.sub.11, Cl.sub.2Hg.sub.2P.sub.1, Cl.sub.2Nb.sub.1S.sub.2, Fe.sub.1P.sub.1S.sub.3, Fe.sub.2P.sub.2S.sub.6, Ge.sub.1K.sub.3S.sub.3, Ge.sub.2K.sub.6S.sub.6, Ge.sub.2K.sub.6Se.sub.6, Hg.sub.6O.sub.7Si.sub.2, I.sub.2O.sub.1Ta.sub.1, K.sub.6Si.sub.2Te.sub.6, Mg.sub.1P.sub.1S.sub.3, Na.sub.4P.sub.2S.sub.6, Ni.sub.1P.sub.1S.sub.3, Ni.sub.1P.sub.1Se.sub.3, Ni.sub.2P.sub.2S.sub.6, P.sub.1S.sub.3Zn.sub.1, P.sub.2S.sub.6V.sub.2, P.sub.2S.sub.6Zn.sub.2, P.sub.6Si.sub.8Zn.sub.4, Hg.sub.2Mo.sub.2O.sub.7, Hg.sub.2O.sub.4S.sub.1, Hg.sub.2O.sub.4Se.sub.1, Hg.sub.4O.sub.7P.sub.2, K.sub.2Mo.sub.8O.sub.16, Ag.sub.5Ge.sub.1O.sub.4, As.sub.1Cd.sub.2Cl.sub.2, As.sub.1Fe.sub.1Se.sub.1, As.sub.1Fe.sub.1Te.sub.1, As.sub.1Ru.sub.1Te.sub.1, As.sub.2Cs.sub.4Te.sub.6, As.sub.2F.sub.12Hg.sub.4, As.sub.2Hg.sub.6O.sub.10, As.sub.2Hg.sub.6O.sub.8, Ba.sub.1P.sub.3Pt.sub.2, Ba.sub.2P.sub.2S.sub.6, Ba.sub.2P.sub.2Se.sub.6, Ba.sub.6P.sub.6Sn.sub.2, Bi.sub.1Os.sub.1Se.sub.1, Br.sub.14Ga.sub.4Te.sub.4, Br.sub.3Hg.sub.2Te.sub.1, C.sub.1D.sub.1K.sub.1O.sub.3, C.sub.2Ag.sub.2O.sub.4, C.sub.2Cd.sub.1O.sub.4, C.sub.2H.sub.6O.sub.6, C.sub.2Li.sub.2O.sub.4, C.sub.2Na.sub.2O.sub.4, C.sub.2O.sub.4Tl.sub.2, C.sub.2O.sub.4Zn.sub.1, C.sub.4Na.sub.2O.sub.4, Ca.sub.1Mo.sub.5O.sub.8, Ca.sub.2P.sub.2S.sub.6, Ca.sub.2P.sub.2Se.sub.6, Cd.sub.2Cl.sub.2P.sub.1, Cl.sub.14Ga.sub.4Te.sub.4, Cl.sub.3Cu.sub.1K.sub.1, Cl.sub.3Mo.sub.1S.sub.2, Cl.sub.7O.sub.3Re.sub.2, Co.sub.1K.sub.2O.sub.2, Cs.sub.1O.sub.5V.sub.2, Cs.sub.2O.sub.8S.sub.2, Cs.sub.2Se.sub.6Te.sub.2, Cu.sub.1La.sub.2S.sub.4, Fe.sub.1P.sub.1S.sub.1, Fe.sub.1P.sub.1Se.sub.1, Fe.sub.1S.sub.1Sb.sub.1, Fe.sub.1Sb.sub.1Se.sub.1, Fe.sub.1Sb.sub.1Te.sub.1, Ge.sub.2Na.sub.6Se.sub.6, Ge.sub.2Na.sub.6Te.sub.6, H.sub.4B.sub.2O.sub.4, Hg.sub.1O.sub.4Re.sub.1, Hg.sub.2N.sub.2O.sub.4, Hg.sub.4N.sub.2O.sub.8, Hg.sub.6O.sub.8P.sub.2, I.sub.1Nb.sub.2Te.sub.6, In.sub.4P.sub.6S.sub.18, K.sub.4O.sub.8P.sub.2, K.sub.6Se.sub.6Sn.sub.2, K.sub.6Sn.sub.2Te.sub.6, Mo.sub.5O.sub.8Sr.sub.1, Na.sub.6Si.sub.2Te.sub.6, Os.sub.1P.sub.1S.sub.1, Os.sub.1P.sub.1Se.sub.1, Os.sub.1S.sub.1Sb.sub.1, Os.sub.1Sb.sub.1Se.sub.1, Os.sub.1Sb.sub.1Te.sub.1, P.sub.1Pb.sub.1Se.sub.3, P.sub.1Ru.sub.1S.sub.1, P.sub.1Ru.sub.1Se.sub.1, P.sub.1Se.sub.3Sn.sub.1, P.sub.2Pb.sub.2S.sub.6, P.sub.2Pb.sub.2Se.sub.6, P.sub.2S.sub.6Sn.sub.2, P.sub.2S.sub.6Sr.sub.2, P.sub.2Se.sub.6Sn.sub.2, P.sub.2Se.sub.6Sr.sub.2, P.sub.2Se.sub.6Tl.sub.4, Ru.sub.1S.sub.1Sb.sub.1, Ru.sub.1Sb.sub.1Se.sub.1, Ru.sub.1Sb.sub.1Te.sub.1, Ag.sub.2O.sub.2Pb.sub.1, As.sub.1F.sub.6I.sub.5, As.sub.3Br.sub.1Cd.sub.2, As.sub.3Br.sub.1Hg.sub.2, As.sub.3Cd.sub.2I.sub.1, As.sub.6Ba.sub.1Pt.sub.4, As.sub.6Pt.sub.4Sr.sub.1, Au.sub.1Cl.sub.1O.sub.2, Au.sub.1Cl.sub.4Cs.sub.1, Au.sub.1Cl.sub.4Rb.sub.1, Au.sub.1Cl.sub.4Tl.sub.1, Au.sub.1F.sub.4Li.sub.1, Au.sub.1Li.sub.1S.sub.1, B.sub.2Li.sub.2Se.sub.5, Bi.sub.3Cl.sub.1O.sub.4, Br.sub.1Cd.sub.2P.sub.3, Br.sub.2Hg.sub.2O.sub.6, C.sub.2O.sub.4Sn.sub.1, C.sub.4Ag.sub.2O.sub.4, Cd.sub.2Cl.sub.1P.sub.3, Cd.sub.2I.sub.1P.sub.3, Cd.sub.2O.sub.12P.sub.4, Cl.sub.1Hg.sub.2O.sub.1, Cl.sub.1Hg.sub.2P.sub.3, Cl.sub.2Hg.sub.4O.sub.2, Cl.sub.4Os.sub.1Sc.sub.4, Cs.sub.1F.sub.7Sb.sub.2, Cs.sub.2Re.sub.3Se.sub.6, Cs.sub.4Re.sub.6S.sub.13, Cs.sub.4Re.sub.6Se.sub.13, Cs.sub.4S.sub.13Tc.sub.6, Cs.sub.4Se.sub.13Tc.sub.6, Cs.sub.6Ge.sub.2Se.sub.6, Cs.sub.6Ge.sub.2Te.sub.6, Cs.sub.6Sn.sub.2Te.sub.6, Cu.sub.2O.sub.2Pb.sub.1, Cu.sub.2Re.sub.3Se.sub.6, Fe.sub.2O.sub.12P.sub.4, Ge.sub.2K.sub.6Te.sub.6, Hg.sub.2P.sub.2Se.sub.6, K.sub.2Re.sub.3S.sub.6, K.sub.2Re.sub.3Se.sub.6, K.sub.4Re.sub.6Se.sub.12, K.sub.4Si.sub.2Tc.sub.6, K.sub.4Se.sub.12Tc.sub.6, Mn.sub.2Mo.sub.1P.sub.12, Na.sub.2Nb.sub.4O.sub.11, Na.sub.2Re.sub.3S.sub.6, Na.sub.2Re.sub.3Se.sub.6, O.sub.3Si.sub.1Sr.sub.1, O.sub.4Pd.sub.1S.sub.1, O.sub.4Pt.sub.1S.sub.1, O.sub.7P.sub.2Pd.sub.2, P.sub.6Pt.sub.4Sr.sub.1, Rb.sub.2Re.sub.3S.sub.6, Rb.sub.2Re.sub.3Se.sub.6, Rb.sub.4Re.sub.6Si.sub.2, Rb.sub.4Re.sub.6S.sub.13, Rb.sub.4Re.sub.6Se.sub.12, Rb.sub.4S.sub.13Tc.sub.6, Rb.sub.4Se.sub.12Tc.sub.6, Re.sub.3S.sub.6Tl.sub.2, Re.sub.3Se.sub.6Tl.sub.2, Re.sub.6Se.sub.12Tl.sub.4, Br.sub.11Cs.sub.1Nb.sub.4, Br.sub.11Nb.sub.4Rb.sub.1, Cl.sub.11Cs.sub.1Nb.sub.4, Cl.sub.11Nb.sub.4Rb.sub.1, Al.sub.2Ca.sub.5Sb.sub.6, Al.sub.2Cl.sub.8Se.sub.4, As.sub.6Ca.sub.5Ga.sub.2, Ba.sub.1Nb.sub.8O.sub.14, Ba.sub.3O.sub.1Sb.sub.2, Ba.sub.5In.sub.2Sb.sub.6, C.sub.2K.sub.2O.sub.4, C.sub.2O.sub.4Rb.sub.2, Ca.sub.5In.sub.2Sb.sub.6, In.sub.2Sb.sub.6Sr.sub.5, Nb.sub.8O.sub.14Sr.sub.1, Ag.sub.5O.sub.4Si.sub.1, Br.sub.1Hg.sub.2P.sub.3, Nb.sub.2Ni.sub.1O.sub.6, O.sub.9P.sub.2V.sub.2, Al.sub.2Cl.sub.8Te.sub.4, Au.sub.1O.sub.4S.sub.1, Cl.sub.2N.sub.4S.sub.6, Co.sub.1Ge.sub.1Te.sub.1, Cu.sub.1O.sub.3Se.sub.1, Cu.sub.1P.sub.2Se.sub.1, Ge.sub.1Rh.sub.1Te.sub.1, O.sub.6P.sub.2Tl.sub.4, Pt.sub.1Sb.sub.1Si.sub.1, Al.sub.1K.sub.1Sb.sub.4, Al.sub.1P.sub.3Si.sub.1, As.sub.1La.sub.1Te.sub.1, As.sub.2Hg.sub.4O.sub.7, Ba.sub.1P.sub.4Te.sub.2, Cs.sub.2Ge.sub.1Te.sub.4, Cs.sub.2Sn.sub.1Te.sub.4, Ga.sub.1K.sub.1Sb.sub.4, H.sub.2B.sub.1Li.sub.1, La.sub.1Mn.sub.1S.sub.3, La.sub.1P.sub.1S.sub.1, P.sub.1S.sub.1Y.sub.1, P.sub.2Ru.sub.2Th.sub.1, I.sub.1K.sub.4P.sub.21, I.sub.1P.sub.21Rb.sub.4, B.sub.12Li.sub.2Si.sub.2, B.sub.2Ba.sub.1Se.sub.6, In.sub.9K.sub.1Na.sub.3, La.sub.2O.sub.2S.sub.2, Na.sub.4P.sub.2Se.sub.6, Nb.sub.1P.sub.2S.sub.8, F.sub.6Pa.sub.1Rb.sub.1, Au.sub.1Na.sub.1S.sub.1, Cs.sub.2Ni.sub.3S.sub.4, Cs.sub.2Ni.sub.3Se.sub.4, Cs.sub.2Pd.sub.3Se.sub.4, Cs.sub.2Pt.sub.3S.sub.4, Cs.sub.2Pt.sub.3Se.sub.4, Li.sub.2O.sub.4U.sub.1, Na.sub.2O.sub.4U.sub.1, Ni.sub.3Rb.sub.2S.sub.4, Pt.sub.3Rb.sub.2S.sub.4, Au.sub.1Cs.sub.1F.sub.4, Au.sub.5Cs.sub.7O.sub.2, Au.sub.5O.sub.2Rb.sub.7, Br.sub.3Cs.sub.1Li.sub.2, Cl.sub.2I.sub.2Ta.sub.1, Cl.sub.3Cs.sub.1Li.sub.2, Hf.sub.2N.sub.2S.sub.1, Li.sub.2Ni.sub.1O.sub.2, Na.sub.2O.sub.3Ti.sub.1, Na.sub.2O.sub.4Pd.sub.3, O.sub.3Pd.sub.1Sr.sub.2, Al.sub.1B.sub.14Li.sub.1, Ba.sub.1Ce.sub.1O.sub.3, C.sub.2B.sub.13Li.sub.1, Cu.sub.11K.sub.3Te.sub.16, O.sub.4P.sub.1Rh.sub.1, O.sub.4Si.sub.1Zn.sub.2, P.sub.2S.sub.6Th.sub.1, P.sub.2S.sub.6Zr.sub.1, Ba.sub.9Br.sub.34O.sub.1Pr.sub.6, Bi.sub.4I.sub.2Ru.sub.1, La.sub.4O.sub.10Re.sub.2, Br.sub.2Cs.sub.1F.sub.1, C.sub.2Ag.sub.1K.sub.1, C.sub.2Au.sub.1Cs.sub.1, C.sub.2Au.sub.1K.sub.1, C.sub.2Au.sub.1Na.sub.1, C.sub.2Au.sub.1Rb.sub.1, C.sub.2Cu.sub.1Rb.sub.1, C.sub.2Ag.sub.1Cs.sub.1, C.sub.2Cu.sub.1K.sub.1, Cl.sub.3O.sub.1W.sub.1, I.sub.3O.sub.1W.sub.1, Li.sub.6O.sub.4Zn.sub.1, Cl.sub.6Hf.sub.1Se.sub.4, Cl.sub.6Se.sub.4Zr.sub.1, Br.sub.2Cs.sub.2F.sub.2, Cs.sub.2I.sub.6Pd.sub.1, C.sub.4Ba.sub.1O.sub.4, Ag.sub.3Cu.sub.1S.sub.2, Ba.sub.1Cu.sub.2O.sub.2, Ba.sub.1O.sub.7U.sub.2, C.sub.4O.sub.4Pb.sub.1, Cd.sub.1In.sub.2O.sub.4, Cl.sub.2O.sub.1Pd.sub.2, Cu.sub.2O.sub.2Sr.sub.1, Al.sub.1Si.sub.1Te.sub.3, B.sub.12Br.sub.12Cs.sub.2, B.sub.12Cl.sub.12Cs.sub.2, B.sub.12Cs.sub.2I.sub.12, Cd.sub.2P.sub.2Se.sub.6, Cs.sub.8O.sub.1Tl.sub.8, Fe.sub.1P.sub.1Se.sub.3, Fe.sub.2P.sub.2Se.sub.6, Mg.sub.2P.sub.2Se.sub.6, Nb.sub.6O.sub.12Ti.sub.2, As.sub.2Hg.sub.2O.sub.6, Ca.sub.1O.sub.6Os.sub.2, O.sub.6Ru.sub.2Sr.sub.1, C.sub.2Cs.sub.2Pd.sub.1, C.sub.2Cs.sub.2Pt.sub.1, C.sub.2K.sub.2Pd.sub.1, C.sub.2K.sub.2Pt.sub.1, C.sub.2Na.sub.2Pd.sub.1, C.sub.2Na.sub.2Pt.sub.1, C.sub.2Pd.sub.1Rb.sub.2, C.sub.2Pt.sub.1Rb.sub.2, H.sub.2B.sub.2Ca.sub.1, Mg.sub.3Nb.sub.6O.sub.11, O.sub.2Pr.sub.2S.sub.1, O.sub.2Pr.sub.2Se.sub.1, B.sub.9Mg.sub.1N.sub.1, Cs.sub.4O.sub.1Tl.sub.2, F.sub.1Gd.sub.1O.sub.1, H.sub.8F.sub.4N.sub.2, Br.sub.9Os.sub.2Rb.sub.3, C.sub.9Fe.sub.2O.sub.9, Mo.sub.1S.sub.1Se.sub.1, Ag.sub.2I.sub.10Tl.sub.6, Ba.sub.5O.sub.10Ru.sub.2, Ca.sub.1Ga.sub.2P.sub.2, Ca.sub.1In.sub.2P.sub.2, Cl.sub.9Cs.sub.3Ru.sub.2, Cl.sub.9Cs.sub.3Ti.sub.2, Cs.sub.3F.sub.9Fe.sub.2, Cs.sub.3I.sub.9Zr.sub.2, In.sub.2P.sub.2Sr.sub.1, K.sub.1Nb.sub.1S.sub.2, K.sub.1Nb.sub.1Se.sub.2, Li.sub.1Nb.sub.1O.sub.2, Li.sub.1Nb.sub.1S.sub.2, Na.sub.1Nb.sub.1O.sub.2, Na.sub.1Nb.sub.1S.sub.2, Na.sub.1Nb.sub.1Se.sub.2, H.sub.12B.sub.12Cs.sub.2, H.sub.12B.sub.12K.sub.2, H.sub.12B.sub.12Rb.sub.2, H.sub.12B.sub.12Tl.sub.2, H.sub.20B.sub.12N.sub.2, As.sub.1Rb.sub.3Se.sub.16, K.sub.3P.sub.1Se.sub.16, H.sub.6Cl.sub.2N.sub.2, F.sub.6O.sub.2Pt.sub.1, Ag.sub.1Cu.sub.4Tb.sub.1, Au.sub.1Sc.sub.1Sn.sub.1, Bi.sub.1Co.sub.1Zr.sub.1, Bi.sub.1Lu.sub.1Ni.sub.1, Bi.sub.1Ni.sub.1Sc.sub.1, Bi.sub.1Ni.sub.1Y.sub.1, Co.sub.1Sb.sub.1Ti.sub.1, Cu.sub.1Rb.sub.1Te.sub.1, Fe.sub.1Nb.sub.1Sb.sub.1, Fe.sub.1Sb.sub.1V.sub.1, Ge.sub.1Pt.sub.1Ti.sub.1, Hf.sub.1Ni.sub.1Sn.sub.1, Hf.sub.1Pd.sub.1Sn.sub.1, Lu.sub.1Ni.sub.1Sb.sub.1, Nb.sub.1Ru.sub.1Sb.sub.1, Ni.sub.1Sb.sub.1Sc.sub.1, Ni.sub.1Sb.sub.1Y.sub.1, Ni.sub.1Sn.sub.1Ti.sub.1, Ni.sub.1Sn.sub.1Zr.sub.1, O.sub.4S.sub.1Zn.sub.1, Pd.sub.1Sb.sub.1Sc.sub.1, Pt.sub.1Sb.sub.1Sc.sub.1, Pt.sub.1Sb.sub.1Y.sub.1, Pt.sub.1Sn.sub.1Ti.sub.1, Rh.sub.1Sb.sub.1Th.sub.1, Ru.sub.1Sb.sub.1Ta.sub.1, Ru.sub.1Sb.sub.1V.sub.1, Ag.sub.6Ge.sub.10P.sub.12, Nb.sub.3Sb.sub.2Te.sub.5, In.sub.3O.sub.8P.sub.2, Fe.sub.2Ge.sub.1Ti.sub.1, H.sub.6B.sub.6Cs.sub.2, H.sub.6B.sub.6K.sub.2, Ag.sub.2Mo.sub.1O.sub.4, Ag.sub.6K.sub.2S.sub.4, Al.sub.1Cs.sub.1O.sub.2, Al.sub.1K.sub.1O.sub.2, Al.sub.1O.sub.2Rb.sub.1, Al.sub.2Cd.sub.1O.sub.4, Al.sub.2Cd.sub.1S.sub.4, Al.sub.2Cd.sub.1Se.sub.4, Al.sub.2Hg.sub.1S.sub.4, Al.sub.2Hg.sub.1Se.sub.4, Al.sub.2O.sub.4Zn.sub.1, Al.sub.2S.sub.4Zn.sub.1, Al.sub.2Se.sub.4Zn.sub.1, As.sub.4He.sub.2O.sub.6, Ba.sub.2Ge.sub.4S.sub.10, Cd.sub.1Ga.sub.2O.sub.4, Cd.sub.1In.sub.2S.sub.4, Cd.sub.1In.sub.2Se.sub.4, Cd.sub.1Lu.sub.2S.sub.4, Cd.sub.1Lu.sub.2Se.sub.4, Cd.sub.1O.sub.4Rh.sub.2, Cd.sub.1S.sub.4Sc.sub.2, Cd.sub.1S.sub.4Y.sub.2, Cd.sub.1Sc.sub.2Se.sub.4, Cd.sub.1Se.sub.4Y.sub.2, Cd.sub.2O.sub.4Si.sub.1, Cd.sub.2O.sub.4Sn.sub.1, Cl.sub.4Li.sub.2Zn.sub.1, Cs.sub.1N.sub.2Nb.sub.1, Ga.sub.2O.sub.4Zn.sub.1, Hg.sub.1In.sub.2S.sub.4, In.sub.2O.sub.4Zn.sub.1, In.sub.2S.sub.4Zn.sub.1, K.sub.8Sb.sub.4Sn.sub.1, Lu.sub.2Mg.sub.1S.sub.4, Lu.sub.2Mg.sub.1Se.sub.4, Mg.sub.1O.sub.4Rh.sub.2, Mg.sub.1Se.sub.4Y.sub.2, O.sub.4Rh.sub.2Zn.sub.1, O.sub.4Sn.sub.1Zn.sub.2, S.sub.4Sc.sub.2Zn.sub.1, S.sub.4Y.sub.2Zn.sub.1, Se.sub.4Y.sub.2Zn.sub.1, Ag.sub.1Bi.sub.1P.sub.2S.sub.6, As.sub.1Cl.sub.3F.sub.6S.sub.3, As.sub.2Cd.sub.1Ge.sub.1K.sub.1, As.sub.2Cd.sub.1Ge.sub.1Rb.sub.1, B.sub.18Cs.sub.4Hg.sub.2Se.sub.18, B.sub.18Hg.sub.2Rb.sub.4Se.sub.18, B.sub.3Cu.sub.1Li.sub.3O.sub.7, Br.sub.10O.sub.1Ta.sub.2Te.sub.4, C.sub.10H.sub.18Cu.sub.2N.sub.2O.sub.10, C.sub.10H.sub.18N.sub.2O.sub.10Rh.sub.2, C.sub.1F.sub.3Hg.sub.1O.sub.3S.sub.1, C.sub.1H.sub.5Eu.sub.1O.sub.7P.sub.1, C.sub.1H.sub.5Nd.sub.1O.sub.7P.sub.1, C.sub.1H.sub.5O.sub.7P.sub.1Pr.sub.1, C.sub.2H.sub.10Ga.sub.2Ge.sub.4N.sub.2O.sub.12, C.sub.2H.sub.26B.sub.12N.sub.8, C.sub.2H.sub.6Ca.sub.1O.sub.7, C.sub.2H.sub.6K.sub.2O.sub.13S.sub.1U.sub.1, C.sub.2H.sub.6O.sub.12U.sub.2, C.sub.2H.sub.8Br.sub.3Cu.sub.1N.sub.1O.sub.1, C.sub.2H.sub.8In.sub.2O.sub.14Se.sub.2, C.sub.3H.sub.7F.sub.1N.sub.1O.sub.5Sn.sub.1, C.sub.4H.sub.11N.sub.1O.sub.10, C.sub.4H.sub.12Ba.sub.2N.sub.2O.sub.10S.sub.2, C.sub.4H.sub.12Fe.sub.1O.sub.6S.sub.4, C.sub.4H.sub.12N.sub.6O.sub.14Se.sub.2U.sub.2, C.sub.4H.sub.14F.sub.3N.sub.1O.sub.2V.sub.1, C.sub.4H.sub.16Cl.sub.6Cu.sub.2N.sub.2, C.sub.4H.sub.7Cs.sub.1O.sub.10, C.sub.4H.sub.7K.sub.1O.sub.10, C.sub.5H.sub.10N.sub.1O.sub.6, C.sub.6F.sub.6Na.sub.4O.sub.12Sn.sub.4, C.sub.6H.sub.12Fe.sub.1N.sub.8O.sub.8, C.sub.6H.sub.4Na.sub.4Np.sub.2O.sub.18, C.sub.8H.sub.20N.sub.6O.sub.18S.sub.2U.sub.2, C.sub.8H.sub.28F.sub.6N.sub.2O.sub.4V.sub.2, C.sub.8H.sub.4K.sub.6N.sub.8O.sub.6Os.sub.2S.sub.2, C.sub.8I.sub.2Mo.sub.2O.sub.8, Cl.sub.10Mo.sub.2N.sub.4S.sub.4, Cl.sub.10Nb.sub.2O.sub.1Te.sub.4, Cl.sub.2N.sub.4O.sub.12S.sub.10, Cs.sub.2P.sub.2Se.sub.6Zn.sub.1, Cu.sub.1O.sub.9Se.sub.3Sr.sub.2, Cu.sub.2Na.sub.2O.sub.11Si.sub.4, F.sub.2N.sub.2O.sub.4Xe.sub.1, F.sub.2O.sub.7Te.sub.2V.sub.2, H.sub.10F.sub.8In.sub.2N.sub.2O.sub.2, H.sub.12I.sub.8Mg.sub.1O.sub.6, H.sub.12Mg.sub.1O.sub.12S.sub.2, H.sub.12O.sub.12S.sub.2Zn.sub.1, H.sub.14Hg.sub.2O.sub.14Te.sub.2, H.sub.14N.sub.4O.sub.8S.sub.2, H.sub.16B.sub.12Na.sub.2O.sub.14S.sub.6, H.sub.18O.sub.12Se.sub.4Sn.sub.1Sr.sub.2, H.sub.24Li.sub.2N.sub.8Te.sub.2, H.sub.26B.sub.20K.sub.4O.sub.4, H.sub.32N.sub.14Se.sub.6Sn.sub.2, H.sub.34Cl.sub.4Cr.sub.2N.sub.8O.sub.6, H.sub.4Cu.sub.2Na.sub.2O.sub.13Si.sub.4, H.sub.6B.sub.2F.sub.8N.sub.2, H.sub.6Cs.sub.2O.sub.12P.sub.4, H.sub.6F.sub.22N.sub.2Sb.sub.4, H.sub.6O.sub.12P.sub.4Rb.sub.2, H.sub.8Na.sub.6O.sub.14P.sub.4, K.sub.4Mn.sub.1Mo.sub.3O.sub.12, K.sub.4N.sub.2O.sub.14S.sub.4, Lu.sub.1Na.sub.1P.sub.2S.sub.6, Na.sub.1P.sub.2S.sub.6Tb.sub.1, Na.sub.1P.sub.2S.sub.6Y.sub.1, P.sub.2Rb.sub.2Se.sub.6Zn.sub.1, C.sub.4H.sub.3Cs.sub.1O.sub.14U.sub.2, C.sub.4H.sub.5K.sub.1O.sub.15U.sub.2, C.sub.4H.sub.5O.sub.15Rb.sub.1U.sub.2, Cs.sub.2Cu.sub.2O.sub.19Si.sub.8, Cu.sub.2Ge.sub.4O.sub.13Sc.sub.2, K.sub.3P.sub.5Ru.sub.1Se.sub.10, Ag.sub.2Br.sub.6Hg.sub.7P.sub.8, Ag.sub.2Hg.sub.7I.sub.6P.sub.8, Au.sub.2K.sub.2P.sub.2Se.sub.6, Au.sub.2La.sub.4O.sub.2P.sub.4, Au.sub.2P.sub.2Se.sub.6Tl.sub.2, C.sub.2Cl.sub.2O.sub.4Pb.sub.2, C.sub.2H.sub.2Ag.sub.1O.sub.9S.sub.1Tb.sub.1, C.sub.2H.sub.4Ca.sub.2Cl.sub.2O.sub.6, C.sub.2H.sub.6N.sub.2Rb.sub.2, C.sub.4H.sub.6B.sub.12Cs.sub.2I.sub.12N.sub.2, C.sub.4H.sub.8N.sub.2O.sub.4, H.sub.20B.sub.12Li.sub.2O.sub.4, In.sub.1K.sub.2P.sub.2S.sub.7, La.sub.2P.sub.4S.sub.14Tl.sub.4, C.sub.8H.sub.12Ag.sub.2N.sub.4O.sub.4, Ag.sub.1As.sub.1K.sub.1S.sub.2, Ag.sub.1Cu.sub.1O.sub.4P.sub.1, Ag.sub.2Cs.sub.2P.sub.2Se.sub.6, Ag.sub.2O.sub.8P.sub.2V.sub.1, Ag.sub.2P.sub.2Se.sub.6Tl.sub.2, Al.sub.1As.sub.1Cu.sub.1O.sub.5, Al.sub.1Cu.sub.1O.sub.8P.sub.2Rb.sub.1, Al.sub.2Br.sub.6N.sub.2S.sub.2, Al.sub.2Br.sub.6N.sub.2Se.sub.2, As.sub.1F.sub.6N.sub.2S.sub.3, Ba.sub.1La.sub.1Sb.sub.2Se.sub.6, Ba.sub.1Mo.sub.2O.sub.16P.sub.4, C.sub.10F.sub.4Mn.sub.2O.sub.8, Cl.sub.2Bi.sub.2O.sub.12Ru.sub.4, C.sub.1O.sub.6P.sub.1Sn.sub.2, C.sub.2As.sub.2F.sub.12N.sub.2Te.sub.4, C.sub.2Cl.sub.10N.sub.2Sb.sub.2, C.sub.2Cu.sub.1O.sub.6Tl.sub.2, C.sub.2F.sub.6N.sub.4O.sub.6S.sub.4Se.sub.4, C.sub.2F.sub.6N.sub.4O.sub.6S.sub.8, C.sub.2H.sub.1Cs.sub.1O.sub.4, C.sub.2H.sub.2Na.sub.2O.sub.6, C.sub.2H.sub.4Cs.sub.2O.sub.6, C.sub.2H.sub.4F.sub.6O.sub.6S.sub.2Si.sub.2, C.sub.2H.sub.4Fe.sub.4O.sub.14P.sub.2, C.sub.2H.sub.4O.sub.14P.sub.2Zn.sub.4, C.sub.2H.sub.6K.sub.2N.sub.2, C.sub.2H.sub.6K.sub.4N.sub.8O.sub.10, C.sub.3H.sub.2Na.sub.1O.sub.7Zn.sub.1, C.sub.3H.sub.3Ba.sub.1O.sub.7, C.sub.4H.sub.12Cl.sub.8Nb.sub.2S.sub.2, C.sub.4H.sub.18B.sub.2P.sub.2, C.sub.4H.sub.2Fe.sub.2O.sub.6, C.sub.4H.sub.2O.sub.8Tl.sub.2, C.sub.6H.sub.10O.sub.6Sn.sub.1, C.sub.6H.sub.4Mg.sub.2Na.sub.2O.sub.14, C.sub.6O.sub.16Rb.sub.2U.sub.2, Cd.sub.1Mo.sub.1O.sub.6P.sub.1, Cd.sub.1P.sub.2Rb.sub.2Se.sub.6, Cl.sub.12Mo.sub.2O.sub.4P.sub.2, Cs.sub.2O.sub.12P.sub.2U.sub.2, Cs.sub.4O.sub.2S.sub.10V.sub.2, Cu.sub.1P.sub.1Se.sub.3Tl.sub.1, Cu.sub.2P.sub.2S.sub.6Tl.sub.2, Cu.sub.2P.sub.2Se.sub.6Tl.sub.2, F.sub.2N.sub.4O.sub.6S.sub.8, Fe.sub.1I.sub.1N.sub.2O.sub.2, Fe.sub.1K.sub.2P.sub.2S.sub.6, Fe.sub.1K.sub.2P.sub.2Se.sub.6, Fe.sub.2K.sub.1O.sub.8P.sub.2, H.sub.10Br.sub.2N.sub.2O.sub.2, H.sub.10N.sub.2O.sub.8P.sub.2, H.sub.12N.sub.4O.sub.4P.sub.2, H.sub.12O.sub.6P.sub.2Rb.sub.4S.sub.6, H.sub.14Ni.sub.1O.sub.12P.sub.2, H.sub.2Hg.sub.6N.sub.4O.sub.14, H.sub.2O.sub.6P.sub.2Tl.sub.2, H.sub.3K.sub.1O.sub.6P.sub.2, H.sub.5O.sub.7P.sub.1V.sub.1, H.sub.6Cs.sub.2N.sub.2P.sub.4, H.sub.8K.sub.4O.sub.4P.sub.2S.sub.6, H.sub.8Li.sub.4O.sub.12P.sub.2, Hg.sub.1K.sub.2P.sub.2Se.sub.6, K.sub.2Mg.sub.1P.sub.2Se.sub.6, K.sub.2P.sub.2Se.sub.6Zn.sub.1, Li.sub.2O.sub.8P.sub.2V.sub.1, Mo.sub.2O.sub.16P.sub.4Sr.sub.1, Na.sub.2O.sub.8P.sub.2V.sub.1, Ni.sub.1O.sub.10P.sub.2V.sub.2, Ag.sub.3P.sub.4Si.sub.2Tl.sub.5, Ba.sub.1In.sub.2O.sub.14P.sub.4, Ba.sub.1La.sub.2O.sub.14Te.sub.5, Ba.sub.1O.sub.8P.sub.2Th.sub.1, Ba.sub.2Gd.sub.2O.sub.13Si.sub.4, Bi.sub.2Cl.sub.8Hg.sub.3Te.sub.2, C.sub.1Ag.sub.2Cl.sub.1N.sub.1O.sub.4S.sub.1, C.sub.2Ag.sub.1N.sub.2Na.sub.1, C.sub.2F.sub.6Na.sub.2O.sub.4Sb.sub.2, C.sub.2H.sub.2Cs.sub.2O.sub.5, C.sub.2H.sub.2K.sub.2O.sub.5, C.sub.2H.sub.2K.sub.2O.sub.6, C.sub.2H.sub.2O.sub.5Rb.sub.2, C.sub.2H.sub.4B.sub.2O.sub.2, C.sub.2H.sub.6Fe.sub.1N.sub.2O.sub.4, C.sub.2H.sub.8Cl.sub.3Cu.sub.1N.sub.1, C.sub.2H.sub.8I.sub.2N.sub.4S.sub.2, C.sub.2N.sub.2O.sub.6S.sub.2, C.sub.4H.sub.12Mg.sub.1O.sub.6S.sub.4, C.sub.4H.sub.16F.sub.4Mn.sub.1N.sub.1O.sub.2, C.sub.4H.sub.4O.sub.10Th.sub.1, C.sub.4H.sub.6Ba.sub.1O.sub.10, C.sub.4H.sub.6Cd.sub.1O.sub.2S.sub.4, C.sub.4H.sub.6Na.sub.2O.sub.7, C.sub.4H.sub.6O.sub.7Sr.sub.1, C.sub.4H.sub.8Cd.sub.1Cl.sub.2N.sub.2, C.sub.4H.sub.8O.sub.12Th.sub.1, C.sub.4H.sub.8O.sub.8Zn.sub.1, C.sub.6H.sub.6Ag.sub.3Co.sub.1N.sub.8, Cd.sub.3Na.sub.2O.sub.10Si.sub.3, Cl.sub.3Na.sub.2O.sub.12Te.sub.4Y.sub.3, Cu.sub.1Mo.sub.2O.sub.8Sb.sub.1, Eu.sub.1O.sub.8Rb.sub.1S.sub.2, F.sub.9K.sub.5O.sub.4U.sub.2, H.sub.14Na.sub.3Np.sub.1O.sub.12, H.sub.2F.sub.4K.sub.1Mn.sub.1O.sub.1, H.sub.2F.sub.4Mn.sub.1O.sub.1Rb.sub.1, H.sub.4Ca.sub.2O.sub.13P.sub.3V.sub.1, H.sub.4F.sub.4O.sub.2Rb.sub.1V.sub.1, H.sub.8Ni.sub.1O.sub.10V.sub.2, Hg.sub.1In.sub.1S.sub.3Tl.sub.1, Hg.sub.1O.sub.7P.sub.2Pd.sub.1, K.sub.2Rb.sub.2Re.sub.6S.sub.13, K.sub.4Mo.sub.8O.sub.52P.sub.12, O.sub.14Sr.sub.3Te.sub.4U.sub.1, As.sub.2Cl.sub.3Hg.sub.3Tl.sub.1, Br.sub.3Hg.sub.3Sb.sub.2Tl.sub.1, H.sub.8Cs.sub.4O.sub.4P.sub.2Se.sub.6, H.sub.8O.sub.4P.sub.2Rb.sub.4Se.sub.6, La.sub.2O.sub.8S.sub.2Ta.sub.3, Cl.sub.1N.sub.2S.sub.1Se.sub.2, Cr.sub.2Li.sub.4N.sub.6Sr.sub.2, H.sub.6F.sub.6N.sub.2Si.sub.1, H.sub.6F.sub.1N.sub.1O.sub.2, H.sub.6F.sub.5N.sub.2Sb.sub.1, As.sub.6Ba.sub.4Cd.sub.3Li.sub.2, Ba.sub.4Cd.sub.3Li.sub.2P.sub.6, C.sub.4H.sub.12Cl.sub.8Nb.sub.2Se.sub.2, H.sub.8K.sub.4O.sub.4P.sub.2Se.sub.6, Ba.sub.1O.sub.7Sr.sub.1Ta.sub.2, Br.sub.9Cs.sub.5Nb.sub.2S.sub.4, Br.sub.9Nb.sub.2S.sub.4Tl.sub.5, Cl.sub.8Cs.sub.5I.sub.1S.sub.4U.sub.2, Cl.sub.9Cs.sub.5Nb.sub.2S.sub.4, Cl.sub.9Nb.sub.2S.sub.4Tl.sub.5, F.sub.1K.sub.1Nb.sub.2O.sub.6Sr.sub.1, H.sub.1La.sub.2Li.sub.1O.sub.3, La.sub.1O.sub.11Sr.sub.2Ta.sub.3, C.sub.4N.sub.4Pt.sub.1Rb.sub.2, Cs.sub.1F.sub.3Mo.sub.1O.sub.2, H.sub.4Al.sub.1F.sub.5O.sub.2Zn.sub.1, K.sub.1Na.sub.2O.sub.15Si.sub.6Y.sub.1, La.sub.1Nb.sub.2O.sub.7Rb.sub.1, Li.sub.2O.sub.7P.sub.2Pd.sub.1, O.sub.14P.sub.4Pd.sub.3Tl.sub.2, C.sub.4Cd.sub.1Hg.sub.1N.sub.4S.sub.4, C.sub.4Cd.sub.1Hg.sub.1N.sub.4Se.sub.4, C.sub.4Cd.sub.1N.sub.4S.sub.4Zn.sub.1, C.sub.4Cd.sub.1N.sub.4Se.sub.4Zn.sub.1, C.sub.4CO.sub.1Cs.sub.1O.sub.4, C.sub.4Hg.sub.1N.sub.4S.sub.4Zn.sub.1, C.sub.4Hg.sub.1N.sub.4Se.sub.4Zn.sub.1, Cl.sub.1K.sub.2Na.sub.1O.sub.6S.sub.2, Ba.sub.1O.sub.7Si.sub.2V.sub.1, C.sub.4H.sub.8In.sub.1K.sub.1O.sub.12, C.sub.4H.sub.8K.sub.1Lu.sub.1O.sub.12, C.sub.8K.sub.1O.sub.8Y.sub.1, Cl.sub.2K.sub.5Na.sub.1O.sub.12S.sub.4, Br.sub.4Cs.sub.2I.sub.2Pd.sub.1, Br.sub.4I.sub.2Pd.sub.1Rb.sub.2, Cl.sub.4Cs.sub.2I.sub.2Pd.sub.1, Ba.sub.4Bi.sub.3K.sub.1O.sub.1, Ba.sub.4K.sub.1O.sub.1Sb.sub.3, Ba.sub.4O.sub.1Rb.sub.1Sb.sub.3, As.sub.2Cs.sub.2O.sub.8Th.sub.1, Ce.sub.1K.sub.2O.sub.8P.sub.2, Cl.sub.2Cs.sub.2N.sub.2O.sub.6Pb.sub.1, As.sub.1K.sub.1Ni.sub.1O.sub.4, As.sub.1Na.sub.1Ni.sub.1O.sub.4, As.sub.2Ba.sub.1Ni.sub.2O.sub.8, Ba.sub.1Ni.sub.2O.sub.8P.sub.2, C.sub.4H.sub.4Cd.sub.1O.sub.6, Ca.sub.2Li.sub.6Mn.sub.2N.sub.6, Br.sub.15Cs.sub.2La.sub.1O.sub.3Ta.sub.6, Cl.sub.18Cs.sub.1Lu.sub.1Nb.sub.6, C.sub.8H.sub.24Cl.sub.18N.sub.2Nb.sub.6, Ce.sub.1O.sub.1P.sub.1Zn.sub.1, H.sub.12B.sub.12Br.sub.1Cs.sub.3, H.sub.12B.sub.12Br.sub.1K.sub.3, H.sub.12B.sub.12Br.sub.1Rb.sub.3, H.sub.12B.sub.12Cl.sub.1Cs.sub.3, H.sub.12B.sub.12Cl.sub.1Rb.sub.3, H.sub.12B.sub.12Cs.sub.3I.sub.1, H.sub.12B.sub.12I.sub.1K.sub.3, H.sub.12B.sub.12I.sub.1Rb.sub.3, As.sub.2Ba.sub.6Na.sub.2O.sub.17Ru.sub.2, Ba.sub.5Br.sub.2O.sub.9Ru.sub.2, Ba.sub.6Na.sub.2O.sub.17Ru.sub.2V.sub.2, C.sub.4Fe.sub.2Na.sub.6O.sub.16S.sub.1, Cs.sub.3Mo.sub.4O.sub.16P.sub.3, Ag.sub.3Ge.sub.3P.sub.6Sn.sub.2, Ag.sub.3P.sub.6Si.sub.3Sn.sub.2, C.sub.4Cd.sub.1K.sub.2N.sub.4, C.sub.4Hg.sub.1K.sub.2N.sub.4 and C.sub.4K.sub.2N.sub.4Zn.sub.1, and which compound does not provide a surface with at least one metal surface state, into a compound which provides a surface with at least one metal surface state, by cutting or growing a crystal of this compound in a predefined crystallographic direction thereby revealing the at least one metal surface state, wherein the predefined crystallographic direction is the direction of the normal vector (h,k,l) of the surface plane f(x, y, z)=0 which cuts through the Wyckoff Position of obstructed WCCs (=WP.sub.OAI), but stays away from the Wyckoff Position(s) of the atoms of the selected topological insulator (=occupied Wyckoff Position(s), =WP.sub.OCC), which condition is fulfilled when: ${\begin{matrix} (h, k, l) .Math. (x - X_{j}, y - Y_{j}, - Z_{j}) = 0, \\ (h, k, l) .Math. (x - x_{i}, y - y_{i}, z - z_{i}) \neq 0, \\ h, k, l ϵ Z \end{matrix}$ with the obstructed WCCs localized at
WP.sub.OAI={X.sub.j,Y.sub.j,Z.sub.j|RSI.sub.j≠0,j.Math.occupied positions} and atoms of the selected potentially catalytic active compound occupying
WP.sub.occγ{x.sub.i,y.sub.i,z.sub.i|i∈occupied positions}.

5. The method according to claim 1, wherein the topological insulator compound is characterized by an indirect band gap in the bulk of 0.001 to 7.000 eV.

6. The method according to claim 1, wherein the metal surface state is located within 0.3 to 0.7 e-Volts above or below the Fermi level.

7. A catalyst selected from a list consisting of the following compounds: Ba.sub.1P.sub.8, I.sub.4P.sub.2, Mn.sub.1P.sub.4, Nb.sub.2Se.sub.9, Os.sub.1P.sub.4, P.sub.3Ru.sub.1, P.sub.4Ru.sub.1, P.sub.5Re.sub.2, Re.sub.1S.sub.2, Re.sub.1Se.sub.2, S.sub.2Tc.sub.1, Lu.sub.1P.sub.5, P.sub.5Y.sub.1, As.sub.1Ge.sub.1, As.sub.1Si.sub.1, Ba.sub.1P.sub.3, Bi.sub.1S.sub.2, Bi.sub.1Se.sub.2, Br.sub.4Nb.sub.1, Br.sub.6Si.sub.2, C.sub.22F.sub.14, C.sub.2Ca.sub.1, Ca.sub.5P.sub.8, Cl.sub.3Mo.sub.1, Cl.sub.3Y.sub.2, Cl.sub.4Nb.sub.1, Cl.sub.4Ta.sub.1, Cs.sub.5Te.sub.3, Ga.sub.1Te.sub.1, Ge.sub.1P.sub.1, Hg.sub.1O.sub.2, In.sub.1Se.sub.1, K.sub.1Sb.sub.2, Na.sub.1P.sub.2, O.sub.2Rb.sub.2, P.sub.3Sr.sub.1, Rb.sub.1Sb.sub.2, Ag.sub.1P.sub.2, As.sub.2Co.sub.1, As.sub.2Ir.sub.1, As.sub.2La.sub.1, As.sub.2Rh.sub.1, Au.sub.1O.sub.1, B.sub.2F.sub.4, B.sub.4Mn.sub.1, Ca.sub.1O.sub.2, Cd.sub.1P.sub.4, Co.sub.1P.sub.2, Cs.sub.1Te.sub.4, Cs.sub.2I.sub.8, Cu.sub.1P.sub.2, Fe.sub.1P.sub.4, Fe.sub.1S.sub.1, Ga.sub.2I.sub.3, Hg.sub.2N.sub.6, Ir.sub.1N.sub.2, Ir.sub.1P.sub.2, Ir.sub.1Sb.sub.2, La.sub.1P.sub.7, La.sub.1S.sub.2, La.sub.1Se.sub.2, Li.sub.2O.sub.2, Mg.sub.1P.sub.4, N.sub.2O.sub.4, N.sub.2S.sub.2, O.sub.2Tc.sub.1, P.sub.2Rh.sub.1, P.sub.7Pb.sub.1, Rh.sub.1Sb.sub.2, Rh.sub.1Si.sub.1, Sb.sub.1Zn.sub.1, Ba.sub.1S.sub.2, Ba.sub.1Se.sub.2, C.sub.2Ba.sub.1, C.sub.2Sr.sub.1, I.sub.6Pt.sub.2, Ni.sub.1P.sub.2, O.sub.2Si.sub.1, P.sub.2Pd.sub.1, S.sub.2Yb.sub.1, S.sub.4V.sub.1, Se.sub.3Tl.sub.2, Se.sub.9V.sub.2, Te.sub.3Tl.sub.2, As.sub.3Ca.sub.4, Cs.sub.2Te.sub.2, K.sub.2O.sub.2, Rb.sub.2Te.sub.2, As.sub.2Fe.sub.1, As.sub.2Os.sub.1, As.sub.2Ru.sub.1, C.sub.1N.sub.1, Fe.sub.1P.sub.2, Fe.sub.1S.sub.2, Fe.sub.1Sb.sub.2, Fe.sub.1Se.sub.2, In.sub.1S.sub.1, N.sub.2Pt.sub.1, Os.sub.1P.sub.2, Os.sub.1Sb.sub.2, P.sub.2Ru.sub.1, Ru.sub.1Sb.sub.2, Ru.sub.1Te.sub.2, Ge.sub.3Os.sub.2, Ge.sub.3Ru.sub.2, Os.sub.2Si.sub.3, Ru.sub.2Si.sub.3, As.sub.1Cd.sub.1, As.sub.1Zn.sub.1, B.sub.2Cl.sub.4, C.sub.2N.sub.2, Cd.sub.1Sb.sub.1, Cl.sub.1O.sub.2, P.sub.4Re.sub.1, P.sub.4Tc.sub.1, Pd.sub.1S.sub.2, B.sub.2Fe.sub.1, Na.sub.1P.sub.5, P.sub.3Re.sub.1, P.sub.3Tc.sub.1, Ba.sub.5P.sub.4, Ba.sub.5Sb.sub.4, K.sub.1Tl.sub.1, Ba.sub.1O.sub.2, F.sub.3La.sub.1, As.sub.6Cs.sub.4, As.sub.6Rb.sub.4, Cs.sub.4P.sub.6, K.sub.4P.sub.6, P.sub.6Rb.sub.4, Al.sub.2Ru.sub.1, Ga.sub.2Os.sub.1, Ga.sub.2Ru.sub.1, C.sub.2Li.sub.2, C.sub.2Na.sub.2, Cs.sub.2O.sub.2, Cs.sub.2S.sub.2, Rb.sub.2S.sub.2, B.sub.3Si.sub.1, H.sub.6Ru.sub.1, O.sub.64Si.sub.32, K.sub.5Te.sub.3, B.sub.10F.sub.12, Li.sub.1Si.sub.1, C.sub.1N.sub.2, Cs.sub.1In.sub.3, Ga.sub.3K.sub.1, Ga.sub.3Rb.sub.1, H.sub.8Si.sub.1, C.sub.2Mg.sub.1, Fe.sub.1Ga.sub.3, Ga.sub.3Os.sub.1, Ga.sub.3Ru.sub.1, In.sub.3Ru.sub.1, Li.sub.2S.sub.2, B.sub.4Os.sub.1, Cl.sub.2Zn.sub.1, Hg.sub.1I.sub.2, Hg.sub.2I.sub.4, Al.sub.2Os.sub.1, As.sub.1Ca.sub.2, Bi.sub.1Ca.sub.2, Br.sub.1Hg.sub.1, Br.sub.2Hg.sub.2, Cl.sub.2Hg.sub.2, F.sub.2Hg.sub.2, Ga.sub.3K.sub.2, Hg.sub.1I.sub.1, Hg.sub.2I.sub.2, In.sub.3Rb.sub.2, O.sub.2Sr.sub.1, Ba.sub.1Te.sub.2, O.sub.2Zn.sub.1, S.sub.2Sr.sub.1, Au.sub.1Br.sub.1, Au.sub.1Cl.sub.1, O.sub.3U.sub.1, Br.sub.12Zr.sub.6, Cl.sub.12Zr.sub.6, I.sub.12Zr.sub.6, I.sub.6Si.sub.2, As.sub.1B.sub.6, As.sub.2B.sub.12, B.sub.12P.sub.2, B.sub.12Si.sub.3, B.sub.6O.sub.1, B.sub.6P.sub.1, Br.sub.8Nb.sub.3, C.sub.1B.sub.4, C.sub.3B.sub.12, Ga.sub.1S.sub.1, I.sub.8Nb.sub.3, Cr.sub.1N.sub.2, Ga.sub.1Se.sub.1, Mo.sub.1N.sub.2, N.sub.2W.sub.1, Ca.sub.1P.sub.1, Ca.sub.2P.sub.2, K.sub.2S.sub.2, K.sub.2Se.sub.2, Na.sub.2O.sub.2, Na.sub.2S.sub.2, P.sub.1Sr.sub.1, C.sub.2Os.sub.1, Hf.sub.1N.sub.2, K.sub.2Te.sub.2, Mo.sub.1S.sub.2, Mo.sub.1Se.sub.2, Mo.sub.1Te.sub.2, Na.sub.1S.sub.1, Na.sub.2Se.sub.2, S.sub.2W.sub.1, Se.sub.2W.sub.1, Te.sub.2W.sub.1, As.sub.2Pt.sub.1, Cd.sub.1O.sub.2, Cd.sub.1S.sub.2, Cd.sub.1Se.sub.2, Fe.sub.1Te.sub.2, Mg.sub.1O.sub.2, Mg.sub.1Se.sub.2, Mg.sub.1Te.sub.2, N.sub.2Pd.sub.1, Os.sub.1S.sub.2, Os.sub.1Se.sub.2, Os.sub.1Te.sub.2, P.sub.2Pt.sub.1, Ru.sub.1S.sub.2, Ru.sub.1Se.sub.2, S.sub.2Zn.sub.1, Se.sub.2Zn.sub.1, Ag.sub.1Br.sub.1, Ag.sub.1Cl.sub.1, Ag.sub.1I.sub.1, B.sub.4Fe.sub.1, Be.sub.5Pt.sub.1, Br.sub.1Cu.sub.1, Cd.sub.1S.sub.1, Cd.sub.1Se.sub.1, Cd.sub.1Te.sub.1, Cl.sub.1Cu.sub.1, Cu.sub.1I.sub.1, Cu.sub.5Tb.sub.1, O.sub.1Zn.sub.1, S.sub.1Sn.sub.1, S.sub.1Zn.sub.1, Se.sub.1Zn.sub.1, Te.sub.1Zn.sub.1, B.sub.6Ca.sub.1, B.sub.6Si.sub.1, B.sub.6Sr.sub.1 and B.sub.1Li.sub.1, Al.sub.2Cd.sub.2Cl.sub.8, Al.sub.4Cl.sub.14Te.sub.4, As.sub.1Fe.sub.1S.sub.1, Au.sub.1Br.sub.8Te.sub.1, B.sub.18Cs.sub.8S.sub.18, B.sub.18Rb.sub.8S.sub.1, B.sub.18Rb.sub.8Se.sub.18, B.sub.8Br.sub.6P.sub.4, Bi.sub.2Br.sub.8Te.sub.4, Bi.sub.4Cl.sub.16Te.sub.14, Bi.sub.6Cl.sub.20Te.sub.4, Br.sub.12Ta.sub.2Te.sub.4, Br.sub.1Mo.sub.1Te.sub.4, Br.sub.2Nb.sub.1S.sub.2, Br.sub.2Nb.sub.1Se.sub.2, C.sub.22Co.sub.6O.sub.18, C.sub.2I.sub.10La.sub.6, C.sub.2O.sub.4Pb.sub.1, Cl.sub.12Ta.sub.2Te.sub.4, Cl.sub.18P.sub.2Re.sub.2, Cl.sub.2Nb.sub.1Se.sub.2, Cl.sub.5O.sub.4Re.sub.2, Cl.sub.6Hf.sub.1Te.sub.4, Cl.sub.8Ga.sub.2Hg.sub.2, Cs.sub.1Sb.sub.2Se.sub.4, Cs.sub.2S.sub.6Sn.sub.2, Cs.sub.2S.sub.8Sb.sub.4, Cs.sub.2Se.sub.6Sn.sub.2, Cs.sub.4P.sub.2Se.sub.10, Cu.sub.4P.sub.3Se.sub.4, F.sub.12I.sub.4Sb.sub.2, F.sub.12Sb.sub.2Te.sub.4, Ge.sub.1Li.sub.1Te.sub.2, Ge.sub.2Te.sub.6Tl.sub.6, Hg.sub.1O.sub.3V.sub.1, Hg.sub.2P.sub.2S.sub.6, I.sub.12Nb.sub.2Te.sub.8, I.sub.1Ta.sub.1Te.sub.4, In.sub.2O.sub.5P.sub.1, K.sub.2O.sub.8S.sub.2, K.sub.2Sb.sub.4Se.sub.8, La.sub.6O.sub.18Re.sub.4, Li.sub.1Mo.sub.1S.sub.2, Mo.sub.4N.sub.14Sr.sub.10, Na.sub.2O.sub.8S.sub.2, Rb.sub.2Sb.sub.4Se.sub.8, Si.sub.2Te.sub.6Tl.sub.6, As.sub.2Ga.sub.2Sr.sub.1, C.sub.2Ca.sub.1O.sub.4, Al.sub.2Na.sub.7Sb.sub.5, Ba.sub.3P.sub.6Si.sub.4, Bi.sub.9I.sub.3Rh.sub.2, Cl.sub.7Nb.sub.3Se.sub.5, Ir.sub.2Se.sub.5Sn.sub.1, K.sub.4P.sub.8Te.sub.4, Al.sub.1O.sub.4W.sub.1, As.sub.1Cl.sub.2Hg.sub.2, As.sub.2F.sub.12I.sub.4, As.sub.3Ba.sub.2Cd.sub.2, As.sub.3Sr.sub.2Zn.sub.2, Ba.sub.5Cr.sub.1N.sub.5, Bi.sub.4Br.sub.2Ru.sub.1, Br.sub.10Te.sub.4Zr.sub.2, C.sub.1B.sub.2O.sub.2, C.sub.1N.sub.1Th.sub.1, C.sub.2Br.sub.2Gd.sub.2, C.sub.2La.sub.2O.sub.2, C.sub.4Cs.sub.2O.sub.4, C.sub.4Li.sub.2O.sub.4, C.sub.4O.sub.4Rb.sub.2, Cd.sub.1P.sub.1S.sub.3, Cd.sub.2P.sub.2S.sub.6, Cd.sub.6Sb.sub.12Sr.sub.11, Cl.sub.2Hg.sub.2P.sub.1, Cl.sub.2Nb.sub.1S.sub.2, Fe.sub.1P.sub.1S.sub.3, Fe.sub.2P.sub.2S.sub.6, Ge.sub.1K.sub.3S.sub.3, Ge.sub.2K.sub.6S.sub.6, Ge.sub.2K.sub.6Se.sub.6, Hg.sub.6O.sub.7Si.sub.2, I.sub.2O.sub.1Ta.sub.1, K.sub.6Si.sub.2Te.sub.6, Mg.sub.1P.sub.1S.sub.3, Na.sub.4P.sub.2S.sub.6, Ni.sub.1P.sub.1S.sub.3, Ni.sub.1P.sub.1Se.sub.3, Ni.sub.2P.sub.2S.sub.6, P.sub.1S.sub.3Zn.sub.1, P.sub.2S.sub.6V.sub.2, P.sub.2S.sub.6Zn.sub.2, P.sub.6Si.sub.8Zn.sub.4, Hg.sub.2Mo.sub.2O.sub.7, Hg.sub.2O.sub.4S.sub.1, Hg.sub.2O.sub.4Se.sub.1, Hg.sub.4O.sub.7P.sub.2, K.sub.2Mo.sub.8O.sub.16, Ag.sub.5Ge.sub.1O.sub.4, As.sub.1Cd.sub.2Cl.sub.2, As.sub.1Fe.sub.1Se.sub.1, As.sub.1Fe.sub.1Te.sub.1, As.sub.1Ru.sub.1Te.sub.1, As.sub.2Cs.sub.4Te.sub.6, As.sub.2F.sub.12Hg.sub.4, As.sub.2Hg.sub.6O.sub.10, As.sub.2Hg.sub.6O.sub.8, Ba.sub.1P.sub.3Pt.sub.2, Ba.sub.2P.sub.2S.sub.6, Ba.sub.2P.sub.2Se.sub.6, Ba.sub.6P.sub.6Sn.sub.2, Bi.sub.1Os.sub.1Se.sub.1, Br.sub.14Ga.sub.4Te.sub.4, Br.sub.3Hg.sub.2Te.sub.1, C.sub.1D.sub.1K.sub.1O.sub.3, C.sub.2Ag.sub.2O.sub.4, C.sub.2Cd.sub.1O.sub.4, C.sub.2H.sub.6O.sub.6, C.sub.2Li.sub.2O.sub.4, C.sub.2Na.sub.2O.sub.4, C.sub.2O.sub.4Tl.sub.2, C.sub.2O.sub.4Zn.sub.1, C.sub.4Na.sub.2O.sub.4, Ca.sub.1Mo.sub.5O.sub.8, Ca.sub.2P.sub.2S.sub.6, Ca.sub.2P.sub.2Se.sub.6, Cd.sub.2Cl.sub.2P.sub.1, Cl.sub.14Ga.sub.4Te.sub.4, Cl.sub.3Cu.sub.1K.sub.1, Cl.sub.3Mo.sub.1S.sub.2, Cl.sub.7O.sub.3Re.sub.2, Co.sub.1K.sub.2O.sub.2, Cs.sub.1O.sub.5V.sub.2, Cs.sub.2O.sub.8S.sub.2, Cs.sub.2Se.sub.6Te.sub.2, Cu.sub.1La.sub.2S.sub.4, Fe.sub.1P.sub.1S.sub.1, Fe.sub.1P.sub.1Se.sub.1, Fe.sub.1S.sub.1Sb.sub.1, Fe.sub.1Sb.sub.1Se.sub.1, Fe.sub.1Sb.sub.1Te.sub.1, Ge.sub.2Na.sub.6Se.sub.6, Ge.sub.2Na.sub.6Te.sub.6, H.sub.4B.sub.2O.sub.4, Hg.sub.1O.sub.4Re.sub.1, Hg.sub.2N.sub.2O.sub.4, Hg.sub.4N.sub.2O.sub.8, Hg.sub.6O.sub.8P.sub.2, I.sub.1Nb.sub.2Te.sub.6, In.sub.4P.sub.6S.sub.18, K.sub.4O.sub.8P.sub.2, K.sub.6Se.sub.6Sn.sub.2, K.sub.6Sn.sub.2Te.sub.6, Mo.sub.5O.sub.8Sr.sub.1, Na.sub.6Si.sub.2Te.sub.6, Os.sub.1P.sub.1S.sub.1, Os.sub.1P.sub.1Se.sub.1, Os.sub.1S.sub.1Sb.sub.1, Os.sub.1Sb.sub.1Se.sub.1, Os.sub.1Sb.sub.1Te.sub.1, P.sub.1Pb.sub.1Se.sub.3, P.sub.1Ru.sub.1S.sub.1, P.sub.1Ru.sub.1Se.sub.1, P.sub.1Se.sub.3Sn.sub.1, P.sub.2Pb.sub.2S.sub.6, P.sub.2Pb.sub.2Se.sub.6, P.sub.2S.sub.6Sn.sub.2, P.sub.2S.sub.6Sr.sub.2, P.sub.2Se.sub.6Sn.sub.2, P.sub.2Se.sub.6Sr.sub.2, P.sub.2Se.sub.6Tl.sub.4, Ru.sub.1S.sub.1Sb.sub.1, Ru.sub.1Sb.sub.1Se.sub.1, Ru.sub.1Sb.sub.1Te.sub.1, Ag.sub.2O.sub.2Pb.sub.1, As.sub.1F.sub.6I.sub.5, As.sub.3Br.sub.1Cd.sub.2, As.sub.3Br.sub.1Hg.sub.2, As.sub.3Cd.sub.2I.sub.1, As.sub.6Ba.sub.1Pt.sub.4, As.sub.6Pt.sub.4Sr.sub.1, Au.sub.1Cl.sub.1O.sub.2, Au.sub.1Cl.sub.4Cs.sub.1, Au.sub.1Cl.sub.4Rb.sub.1, Au.sub.1Cl.sub.4Tl.sub.1, Au.sub.1F.sub.4Li.sub.1, Au.sub.1Li.sub.1S.sub.1, B.sub.2Li.sub.2Se.sub.5, Bi.sub.3Cl.sub.1O.sub.4, Br.sub.1Cd.sub.2P.sub.3, Br.sub.2Hg.sub.2O.sub.6, C.sub.2O.sub.4Sn.sub.1, C.sub.4Ag.sub.2O.sub.4, Cd.sub.2Cl.sub.1P.sub.3, Cd.sub.2I.sub.1P.sub.3, Cd.sub.2O.sub.12P.sub.4, Cl.sub.1Hg.sub.2O.sub.1, Cl.sub.1Hg.sub.2P.sub.3, Cl.sub.2Hg.sub.4O.sub.2, Cl.sub.4Os.sub.1Sc.sub.4, Cs.sub.1F.sub.7Sb.sub.2, Cs.sub.2Re.sub.3Se.sub.6, Cs.sub.4Re.sub.6S.sub.13, Cs.sub.4Re.sub.6Se.sub.13, Cs.sub.4S.sub.13Tc.sub.6, Cs.sub.4Se.sub.13Tc.sub.6, Cs.sub.6Ge.sub.2Se.sub.6, Cs.sub.6Ge.sub.2Te.sub.6, Cs.sub.6Sn.sub.2Te.sub.6, Cu.sub.2O.sub.2Pb.sub.1, Cu.sub.2Re.sub.3Se.sub.6, Fe.sub.2O.sub.12P.sub.4, Ge.sub.2K.sub.6Te.sub.6, Hg.sub.2P.sub.2Se.sub.6, K.sub.2Re.sub.3S.sub.6, K.sub.2Re.sub.3Se.sub.6, K.sub.4Re.sub.6Se.sub.12, K.sub.4Si.sub.2Tc.sub.6, K.sub.4Se.sub.12Tc.sub.6, Mn.sub.2Mo.sub.1P.sub.12, Na.sub.2Nb.sub.4O.sub.11, Na.sub.2Re.sub.3S.sub.6, Na.sub.2Re.sub.3Se.sub.6, O.sub.3Si.sub.1Sr.sub.1, O.sub.4Pd.sub.1S.sub.1, O.sub.4Pt.sub.1S.sub.1, O.sub.7P.sub.2Pd.sub.2, P.sub.6Pt.sub.4Sr.sub.1, Rb.sub.2Re.sub.3S.sub.6, Rb.sub.2Re.sub.3Se.sub.6, Rb.sub.4Re.sub.6Si.sub.2, Rb.sub.4Re.sub.6S.sub.13, Rb.sub.4Re.sub.6Se.sub.12, Rb.sub.4S.sub.13Tc.sub.6, Rb.sub.4Se.sub.12Tc.sub.6, Re.sub.3S.sub.6Tl.sub.2, Re.sub.3Se.sub.6Tl.sub.2, Re.sub.6Se.sub.12Tl.sub.4, Br.sub.11Cs.sub.1Nb.sub.4, Br.sub.11Nb.sub.4Rb.sub.1, Cl.sub.11Cs.sub.1Nb.sub.4, Cl.sub.11Nb.sub.4Rb.sub.1, Al.sub.2Ca.sub.5Sb.sub.6, Al.sub.2Cl.sub.8Se.sub.4, As.sub.6Ca.sub.5Ga.sub.2, Ba.sub.1Nb.sub.8O.sub.14, Ba.sub.3O.sub.1Sb.sub.2, Ba.sub.5In.sub.2Sb.sub.6, C.sub.2K.sub.2O.sub.4, C.sub.2O.sub.4Rb.sub.2, Ca.sub.5In.sub.2Sb.sub.6, In.sub.2Sb.sub.6Sr.sub.5, Nb.sub.8O.sub.14Sr.sub.1, Ag.sub.5O.sub.4Si.sub.1, Br.sub.1Hg.sub.2P.sub.3, Nb.sub.2Ni.sub.1O.sub.6, O.sub.9P.sub.2V.sub.2, Al.sub.2Cl.sub.8Te.sub.4, Au.sub.1O.sub.4Si, Cl.sub.2N.sub.4S.sub.6, Co.sub.1Ge.sub.1Te.sub.1, Cu.sub.1O.sub.3Se.sub.1, Cu.sub.1P.sub.2Se.sub.1, Ge.sub.1Rh.sub.1Te.sub.1, O.sub.6P.sub.2Tl.sub.4, Pt.sub.1Sb.sub.1Si.sub.1, Al.sub.1K.sub.1Sb.sub.4, Al.sub.1P.sub.3Si.sub.1, As.sub.1La.sub.1Te.sub.1, As.sub.2Hg.sub.4O.sub.7, Ba.sub.1P.sub.4Te.sub.2, Cs.sub.2Ge.sub.1Te.sub.4, Cs.sub.2Sn.sub.1Te.sub.4, Ga.sub.1K.sub.1Sb.sub.4, H.sub.2B.sub.1Li.sub.1, La.sub.1Mn.sub.1S.sub.3, La.sub.1P.sub.1S.sub.1, P.sub.1S.sub.1Y.sub.1, P.sub.2Ru.sub.2Th.sub.1, I.sub.1K.sub.4P.sub.21, I.sub.1P.sub.21Rb.sub.4, B.sub.12Li.sub.2Si.sub.2, B.sub.2Ba.sub.1Se.sub.6, In.sub.9K.sub.1Na.sub.3, La.sub.2O.sub.2S.sub.2, Na.sub.4P.sub.2Se.sub.6, Nb.sub.1P.sub.2S.sub.8, F.sub.6Pa.sub.1Rb.sub.1, Au.sub.1Na.sub.1S.sub.1, Cs.sub.2Ni.sub.3S.sub.4, Cs.sub.2Ni.sub.3Se.sub.4, Cs.sub.2Pd.sub.3Se.sub.4, Cs.sub.2Pt.sub.3S.sub.4, Cs.sub.2Pt.sub.3Se.sub.4, Li.sub.2O.sub.4U.sub.1, Na.sub.2O.sub.4U.sub.1, Ni.sub.3Rb.sub.2S.sub.4, Pt.sub.3Rb.sub.2S.sub.4, Au.sub.1Cs.sub.1F.sub.4, Au.sub.5Cs.sub.7O.sub.2, Au.sub.5O.sub.2Rb.sub.7, Br.sub.3Cs.sub.1Li.sub.2, Cl.sub.2I.sub.2Ta.sub.1, Cl.sub.3Cs.sub.1Li.sub.2, Hf.sub.2N.sub.2S.sub.1, Li.sub.2Ni.sub.1O.sub.2, Na.sub.2O.sub.3Ti.sub.1, Na.sub.2O.sub.4Pd.sub.3, O.sub.3Pd.sub.1Sr.sub.2, Al.sub.1B.sub.14Li.sub.1, Ba.sub.1Ce.sub.1O.sub.3, C.sub.2B.sub.13Li.sub.1, Cu.sub.11K.sub.3Te.sub.16, O.sub.4P.sub.1Rh.sub.1, O.sub.4Si.sub.1Zn.sub.2, P.sub.2S.sub.6Th.sub.1, P.sub.2S.sub.6Zr.sub.1, Ba.sub.9Br.sub.34O.sub.1Pr.sub.6, Bi.sub.4I.sub.2Ru.sub.1, La.sub.4O.sub.10Re.sub.2, Br.sub.2Cs.sub.1F.sub.1, C.sub.2Ag.sub.1K.sub.1, C.sub.2Au.sub.1Cs.sub.1, C.sub.2Au.sub.1K.sub.1, C.sub.2Au.sub.1Na.sub.1, C.sub.2Au.sub.1Rb.sub.1, C.sub.2Cu.sub.1Rb.sub.1, C.sub.2Ag.sub.1Cs.sub.1, C.sub.2Cu.sub.1K.sub.1, Cl.sub.3O.sub.1W.sub.1, I.sub.3O.sub.1W.sub.1, Li.sub.6O.sub.4Zn.sub.1, Cl.sub.6Hf.sub.1Se.sub.4, Cl.sub.6Se.sub.4Zr.sub.1, Br.sub.2Cs.sub.2F.sub.2, Cs.sub.2I.sub.6Pd.sub.1, C.sub.4Ba.sub.1O.sub.4, Ag.sub.3Cu.sub.1S.sub.2, Ba.sub.1Cu.sub.2O.sub.2, Ba.sub.1O.sub.7U.sub.2, C.sub.4O.sub.4Pb.sub.1, Cd.sub.1In.sub.2O.sub.4, Cl.sub.2O.sub.1Pd.sub.2, Cu.sub.2O.sub.2Sr.sub.1, Al.sub.1Si.sub.1Te.sub.3, B.sub.12Br.sub.12Cs.sub.2, B.sub.12Cl.sub.12Cs.sub.2, B.sub.12Cs.sub.21I.sub.2, Cd.sub.2P.sub.2Se.sub.6, Cs.sub.8O.sub.1Tl.sub.8, Fe.sub.1P.sub.1Se.sub.3, Fe.sub.2P.sub.2Se.sub.6, Mg.sub.2P.sub.2Se.sub.6, Nb.sub.6O.sub.12Ti.sub.2, As.sub.2Hg.sub.2O.sub.6, Ca.sub.1O.sub.6Os.sub.2, O.sub.6Ru.sub.2Sr.sub.1, C.sub.2Cs.sub.2Pd.sub.1, C.sub.2Cs.sub.2Pt.sub.1, C.sub.2K.sub.2Pd.sub.1, C.sub.2K.sub.2Pt.sub.1, C.sub.2Na.sub.2Pd.sub.1, C.sub.2Na.sub.2Pt.sub.1, C.sub.2Pd.sub.1Rb.sub.2, C.sub.2Pt.sub.1Rb.sub.2, H.sub.2B.sub.2Ca.sub.1, Mg.sub.3Nb.sub.6O.sub.11, O.sub.2Pr.sub.2S.sub.1, O.sub.2Pr.sub.2Se.sub.1, B.sub.9Mg.sub.1N.sub.1, Cs.sub.4O.sub.1Tl.sub.2, F.sub.1Gd.sub.1O.sub.1, H.sub.8F.sub.4N.sub.2, Br.sub.9Os.sub.2Rb.sub.3, C.sub.9Fe.sub.2O.sub.9, Mo.sub.1S.sub.1Se.sub.1, Ag.sub.2I.sub.10Tl.sub.6, Ba.sub.5O.sub.10Ru.sub.2, Ca.sub.1Ga.sub.2P.sub.2, Ca.sub.1In.sub.2P.sub.2, Cl.sub.9Cs.sub.3Ru.sub.2, Cl.sub.9Cs.sub.3Ti.sub.2, Cs.sub.3F.sub.9Fe.sub.2, Cs.sub.3I.sub.9Zr.sub.2, In.sub.2P.sub.2Sr.sub.1, K.sub.1Nb.sub.1S.sub.2, K.sub.1Nb.sub.1Se.sub.2, Li.sub.1Nb.sub.1O.sub.2, Li.sub.1Nb.sub.1S.sub.2, Na.sub.1Nb.sub.1O.sub.2, Na.sub.1Nb.sub.1S.sub.2, Na.sub.1Nb.sub.1Se.sub.2, H.sub.12B.sub.12Cs.sub.2, H.sub.12B.sub.12K.sub.2, H.sub.12B.sub.12Rb.sub.2, H.sub.12B.sub.12Tl.sub.2, H.sub.20B.sub.12N.sub.2, As.sub.1Rb.sub.3Se.sub.16, K.sub.3P.sub.1Se.sub.16, H.sub.6Cl.sub.2N.sub.2, F.sub.6O.sub.2Pt.sub.1, Ag.sub.1Cu.sub.4Tb.sub.1, Au.sub.1Sc.sub.1Sn.sub.1, Bi.sub.1Co.sub.1Zr.sub.1, Bi.sub.1Lu.sub.1Ni.sub.1, Bi.sub.1Ni.sub.1Sc.sub.1, Bi.sub.1Ni.sub.1Y.sub.1, Co.sub.1Sb.sub.1Ti.sub.1, Cu.sub.1Rb.sub.1Te.sub.1, Fe.sub.1Nb.sub.1Sb.sub.1, Fe.sub.1Sb.sub.1V.sub.1, Ge.sub.1Pt.sub.1Ti.sub.1, Hf.sub.1Ni.sub.1Sn.sub.1, Hf.sub.1Pd.sub.1Sn.sub.1, Lu.sub.1Ni.sub.1Sb.sub.1, Nb.sub.1Ru.sub.1Sb.sub.1, Ni.sub.1Sb.sub.1Sc.sub.1, Ni.sub.1Sb.sub.1Y.sub.1, Ni.sub.1Sn.sub.1Ti.sub.1, Ni.sub.1Sn.sub.1Zr.sub.1, O.sub.4S.sub.1Zn.sub.1, Pd.sub.1Sb.sub.1Sc.sub.1, Pt.sub.1Sb.sub.1Sc.sub.1, Pt.sub.1Sb.sub.1Y.sub.1, Pt.sub.1Sn.sub.1Ti.sub.1, Rh.sub.1Sb.sub.1Th.sub.1, Ru.sub.1Sb.sub.1Ta.sub.1, Ru.sub.1Sb.sub.1V.sub.1, Ag.sub.6Ge.sub.10P.sub.12, Nb.sub.3Sb.sub.2Te.sub.5, In.sub.3O.sub.8P.sub.2, Fe.sub.2Ge.sub.1Ti.sub.1, H.sub.6B.sub.6Cs.sub.2, H.sub.6B.sub.6K.sub.2, Ag.sub.2Mo.sub.1O.sub.4, Ag.sub.6K.sub.2S.sub.4, Al.sub.1Cs.sub.1O.sub.2, Al.sub.1K.sub.1O.sub.2, Al.sub.1O.sub.2Rb.sub.1, Al.sub.2Cd.sub.1O.sub.4, Al.sub.2Cd.sub.1S.sub.4, Al.sub.2Cd.sub.1Se.sub.4, Al.sub.2Hg.sub.1S.sub.4, Al.sub.2Hg.sub.1Se.sub.4, Al.sub.2O.sub.4Zn.sub.1, Al.sub.2S.sub.4Zn.sub.1, Al.sub.2Se.sub.4Zn.sub.1, As.sub.4He.sub.2O.sub.6, Ba.sub.2Ge.sub.4S.sub.10, Cd.sub.1Ga.sub.2O.sub.4, Cd.sub.1In.sub.2S.sub.4, Cd.sub.1In.sub.2Se.sub.4, Cd.sub.1Lu.sub.2S.sub.4, Cd.sub.1Lu.sub.2Se.sub.4, Cd.sub.1O.sub.4Rh.sub.2, Cd.sub.1S.sub.4Sc.sub.2, Cd.sub.1S.sub.4Y.sub.2, Cd.sub.1Sc.sub.2Se.sub.4, Cd.sub.1Se.sub.4Y.sub.2, Cd.sub.2O.sub.4Si.sub.1, Cd.sub.2O.sub.4Sn.sub.1, Cl.sub.4Li.sub.2Zn.sub.1, Cs.sub.1N.sub.2Nb.sub.1, Ga.sub.2O.sub.4Zn.sub.1, Hg.sub.1In.sub.2S.sub.4, In.sub.2O.sub.4Zn.sub.1, In.sub.2S.sub.4Zn.sub.1, K.sub.8Sb.sub.4Sn.sub.1, Lu.sub.2Mg.sub.1S.sub.4, Lu.sub.2Mg.sub.1Se.sub.4, Mg.sub.1O.sub.4Rh.sub.2, Mg.sub.1Se.sub.4Y.sub.2, O.sub.4Rh.sub.2Zn.sub.1, O.sub.4Sn.sub.1Zn.sub.2, S.sub.4Sc.sub.2Zn.sub.1, S.sub.4Y.sub.2Zn.sub.1, Se.sub.4Y.sub.2Zn.sub.1, Ag.sub.1Bi.sub.1P.sub.2S.sub.6, As.sub.1Cl.sub.3F.sub.6S.sub.3, As.sub.2Cd.sub.1Ge.sub.1K.sub.1, As.sub.2Cd.sub.1Ge.sub.1Rb.sub.1, Bi.sub.8Cs.sub.4Hg.sub.2Se.sub.18, B.sub.18Hg.sub.2Rb.sub.4Se.sub.18, B.sub.3Cu.sub.1Li.sub.3O.sub.7, Br.sub.10O.sub.1Ta.sub.2Te.sub.4, C.sub.10H.sub.18Cu.sub.2N.sub.2O.sub.10, C.sub.10H.sub.18N.sub.2O.sub.10Rh.sub.2, C.sub.1F.sub.3Hg.sub.1O.sub.3S.sub.1, C.sub.1H.sub.5Eu.sub.1O.sub.7P.sub.1, C.sub.1H.sub.5Nd.sub.1O.sub.7P.sub.1, C.sub.1H.sub.5O.sub.7P.sub.1Pr.sub.1, C.sub.2H.sub.10Ga.sub.2Ge.sub.4N.sub.2O.sub.12, C.sub.2H.sub.26B.sub.12N.sub.8, C.sub.2H.sub.6Ca.sub.1O.sub.7, C.sub.2H.sub.6K.sub.2O.sub.13S.sub.1U.sub.1, C.sub.2H.sub.6O.sub.12U.sub.2, C.sub.2H.sub.8Br.sub.3Cu.sub.1N.sub.1O.sub.1, C.sub.2H.sub.8In.sub.2O.sub.14Se.sub.2, C.sub.3H.sub.7F.sub.1N.sub.1O.sub.5Sn.sub.1, C.sub.4H.sub.11N.sub.1O.sub.10, C.sub.4H.sub.12Ba.sub.2N.sub.2O.sub.10S.sub.2, C.sub.4H.sub.12Fe.sub.1O.sub.6S.sub.4, C.sub.4H.sub.12N.sub.6O.sub.14Se.sub.2U.sub.2, C.sub.4H.sub.14F.sub.3N.sub.1O.sub.2V.sub.1, C.sub.4H.sub.16Cl.sub.6Cu.sub.2N.sub.2, C.sub.4H.sub.7Cs.sub.1O.sub.10, C.sub.4H.sub.7K.sub.1O.sub.10, C.sub.5H.sub.10N.sub.1O.sub.6, C.sub.6F.sub.6Na.sub.4O.sub.12Sn.sub.4, C.sub.6H.sub.12Fe.sub.1N.sub.8O.sub.8, C.sub.6H.sub.4Na.sub.4Np.sub.2O.sub.18, C.sub.8H.sub.20N.sub.6O.sub.18S.sub.2U.sub.2, C.sub.8H.sub.28F.sub.6N.sub.2O.sub.4V.sub.2, C.sub.8H.sub.4K.sub.6N.sub.8O.sub.6Os.sub.2S.sub.2, C.sub.8I.sub.2Mo.sub.2O.sub.8, Cl.sub.10Mo.sub.2N.sub.4S.sub.4, Cl.sub.10Nb.sub.2O.sub.1Te.sub.4, Cl.sub.2N.sub.4O.sub.12S.sub.10, Cs.sub.2P.sub.2Se.sub.6Zn.sub.1, Cu.sub.1O.sub.9Se.sub.3Sr.sub.2, Cu.sub.2Na.sub.2O.sub.11Si.sub.4, F.sub.2N.sub.2O.sub.4Xe.sub.1, F.sub.2O.sub.7Te.sub.2V.sub.2, H.sub.10F.sub.8In.sub.2N.sub.2O.sub.2, H.sub.12I.sub.8Mg.sub.1O.sub.6, H.sub.12Mg.sub.1O.sub.12S.sub.2, H.sub.12O.sub.12S.sub.2Zn.sub.1, H.sub.14Hg.sub.2O.sub.14Te.sub.2, H.sub.14N.sub.4O.sub.8S.sub.2, H.sub.16B.sub.12Na.sub.2O.sub.14S.sub.6, H.sub.18O.sub.12Se.sub.4Sn.sub.1Sr.sub.2, H.sub.24Li.sub.2N.sub.8Te.sub.2, H.sub.26B.sub.20K.sub.4O.sub.4, H.sub.32N.sub.14Se.sub.6Sn.sub.2, H.sub.34Cl.sub.4Cr.sub.2N.sub.8O.sub.6, H.sub.4Cu.sub.2Na.sub.2O.sub.13Si.sub.4, H.sub.6B.sub.2F.sub.8N.sub.2, H.sub.6Cs.sub.2O.sub.12P.sub.4, H.sub.6F.sub.22N.sub.2Sb.sub.4, H.sub.6O.sub.12P.sub.4Rb.sub.2, H.sub.8Na.sub.6O.sub.14P.sub.4, K.sub.4Mn.sub.1Mo.sub.3O.sub.12, K.sub.4N.sub.2O.sub.14S.sub.4, Lu.sub.1Na.sub.1P.sub.2S.sub.6, Na.sub.1P.sub.2S.sub.6Tb.sub.1, Na.sub.1P.sub.2S.sub.6Y.sub.1, P.sub.2Rb.sub.2Se.sub.6Zn.sub.1, C.sub.4H.sub.3Cs.sub.1O.sub.14U.sub.2, C.sub.4H.sub.5K.sub.1O.sub.15U.sub.2, C.sub.4H.sub.5O.sub.15Rb.sub.1U.sub.2, Cs.sub.2Cu.sub.2O.sub.19Si.sub.8, Cu.sub.2Ge.sub.4O.sub.13Sc.sub.2, K.sub.3P.sub.5Ru.sub.1Se.sub.10, Ag.sub.2Br.sub.6Hg.sub.7P.sub.8, Ag.sub.2Hg.sub.7I.sub.6P.sub.8, Au.sub.2K.sub.2P.sub.2Se.sub.6, Au.sub.2La.sub.4O.sub.2P.sub.4, Au.sub.2P.sub.2Se.sub.6Tl.sub.2, C.sub.2Cl.sub.2O.sub.4Pb.sub.2, C.sub.2H.sub.2Ag.sub.1O.sub.9S.sub.1Tb.sub.1, C.sub.2H.sub.4Ca.sub.2Cl.sub.2O.sub.6, C.sub.2H.sub.6N.sub.2Rb.sub.2, C.sub.4H.sub.6B.sub.12Cs.sub.2I.sub.12N.sub.2, C.sub.4H.sub.8N.sub.2O.sub.4, H.sub.20B.sub.12Li.sub.2O.sub.4, In.sub.1K.sub.2P.sub.2S.sub.7, La.sub.2P.sub.4S.sub.14Tl.sub.4, C.sub.8H.sub.12Ag.sub.2N.sub.4O.sub.4, Ag.sub.1As.sub.1K.sub.1S.sub.2, Ag.sub.1Cu.sub.1O.sub.4P.sub.1, Ag.sub.2Cs.sub.2P.sub.2Se.sub.6, Ag.sub.2O.sub.8P.sub.2V.sub.1, Ag.sub.2P.sub.2Se.sub.6Tl.sub.2, Al.sub.1As.sub.1Cu.sub.1O.sub.5, Al.sub.1Cu.sub.1O.sub.8P.sub.2Rb.sub.1, Al.sub.2Br.sub.6N.sub.2S.sub.2, Al.sub.2Br.sub.6N.sub.2Se.sub.2, As.sub.1F.sub.6N.sub.2S.sub.3, Ba.sub.1La.sub.1Sb.sub.2Se.sub.6, Ba.sub.1Mo.sub.2O.sub.16P.sub.4, C.sub.10F.sub.4Mn.sub.2O.sub.8, C.sub.12Bi.sub.2O.sub.12Ru.sub.4, C.sub.1O.sub.6P.sub.1Sn.sub.2, C.sub.2As.sub.2F.sub.12N.sub.2Te.sub.4, C.sub.2Cl.sub.10N.sub.2Sb.sub.2, C.sub.2Cu.sub.1O.sub.6Tl.sub.2, C.sub.2F.sub.6N.sub.4O.sub.6S.sub.4Se.sub.4, C.sub.2F.sub.6N.sub.4O.sub.6S.sub.8, C.sub.2H.sub.1Cs.sub.1O.sub.4, C.sub.2H.sub.2Na.sub.2O.sub.6, C.sub.2H.sub.4Cs.sub.2O.sub.6, C.sub.2H.sub.4F.sub.6O.sub.6S.sub.2Si.sub.2, C.sub.2H.sub.4Fe.sub.4O.sub.14P.sub.2, C.sub.2H.sub.4O.sub.14P.sub.2Zn.sub.4, C.sub.2H.sub.6K.sub.2N.sub.2, C.sub.2H.sub.6K.sub.4N.sub.8O.sub.10, C.sub.3H.sub.2Na.sub.1O.sub.7Zn.sub.1, C.sub.3H.sub.3Ba.sub.1O.sub.7, C.sub.4H.sub.12Cl.sub.8Nb.sub.2S.sub.2, C.sub.4H.sub.18B.sub.2P.sub.2, C.sub.4H.sub.2Fe.sub.2O.sub.6, C.sub.4H.sub.2O.sub.8Tl.sub.2, C.sub.6H.sub.10O.sub.6Sn.sub.1, C.sub.6H.sub.4Mg.sub.2Na.sub.2O.sub.14, C.sub.6O.sub.16Rb.sub.2U.sub.2, Cd.sub.1Mo.sub.1O.sub.6P.sub.1, Cd.sub.1P.sub.2Rb.sub.2Se.sub.6, Cl.sub.12Mo.sub.2O.sub.4P.sub.2, Cs.sub.2O.sub.12P.sub.2U.sub.2, Cs.sub.4O.sub.2S.sub.10V.sub.2, Cu.sub.1P.sub.1Se.sub.3Tl.sub.1, Cu.sub.2P.sub.2S.sub.6Tl.sub.2, Cu.sub.2P.sub.2Se.sub.6Tl.sub.2, F.sub.2N.sub.4O.sub.6S.sub.8, Fe.sub.1I.sub.1N.sub.2O.sub.2, Fe.sub.1K.sub.2P.sub.2S.sub.6, Fe.sub.1K.sub.2P.sub.2Se.sub.6, Fe.sub.2K.sub.1O.sub.8P.sub.2, H.sub.10Br.sub.2N.sub.2O.sub.2, H.sub.10N.sub.2O.sub.8P.sub.2, H.sub.12N.sub.4O.sub.4P.sub.2, H.sub.12O.sub.6P.sub.2Rb.sub.4S.sub.6, H.sub.14Ni.sub.1O.sub.12P.sub.2, H.sub.2Hg.sub.6N.sub.4O.sub.14, H.sub.2O.sub.6P.sub.2Tl.sub.2, H.sub.3K.sub.1O.sub.6P.sub.2, H.sub.5O.sub.7P.sub.1V.sub.1, H.sub.6Cs.sub.2N.sub.2P.sub.4, H.sub.8K.sub.4O.sub.4P.sub.2S.sub.6, H.sub.8Li.sub.4O.sub.12P.sub.2, Hg.sub.1K.sub.2P.sub.2Se.sub.6, K.sub.2Mg.sub.1P.sub.2Se.sub.6, K.sub.2P.sub.2Se.sub.6Zn.sub.1, Li.sub.2O.sub.8P.sub.2V.sub.1, Mo.sub.2O.sub.16P.sub.4Sr.sub.1, Na.sub.2O.sub.8P.sub.2V.sub.1, Ni.sub.1O.sub.10P.sub.2V.sub.2, Ag.sub.3P.sub.4Si.sub.2Tl.sub.5, Ba.sub.1In.sub.2O.sub.14P.sub.4, Ba.sub.1La.sub.2O.sub.14Te.sub.5, Ba.sub.1O.sub.8P.sub.2Th.sub.1, Ba.sub.2Gd.sub.2O.sub.13Si.sub.4, Bi.sub.2Cl.sub.8Hg.sub.3Te.sub.2, C.sub.1Ag.sub.2Cl.sub.1N.sub.1O.sub.4S.sub.1, C.sub.2Ag.sub.1N.sub.2Na.sub.1, C.sub.2F.sub.6Na.sub.2O.sub.4Sb.sub.2, C.sub.2H.sub.2Cs.sub.2O.sub.5, C.sub.2H.sub.2K.sub.2O.sub.5, C.sub.2H.sub.2K.sub.2O.sub.6, C.sub.2H.sub.2O.sub.5Rb.sub.2, C.sub.2H.sub.4B.sub.2O.sub.2, C.sub.2H.sub.6Fe.sub.1N.sub.2O.sub.4, C.sub.2H.sub.8Cl.sub.3Cu.sub.1N.sub.1, C.sub.2H.sub.8I.sub.2N.sub.4S.sub.2, C.sub.2N.sub.2O.sub.6S.sub.2, C.sub.4H.sub.12Mg.sub.1O.sub.6S.sub.4, C.sub.4H.sub.16F.sub.4Mn.sub.1N.sub.1O.sub.2, C.sub.4H.sub.4O.sub.10Th.sub.1, C.sub.4H.sub.6Ba.sub.1O.sub.10, C.sub.4H.sub.6Cd.sub.1O.sub.2S.sub.4, C.sub.4H.sub.6Na.sub.2O.sub.7, C.sub.4H.sub.6O.sub.7Sr.sub.1, C.sub.4H.sub.8Cd.sub.1Cl.sub.2N.sub.2, C.sub.4H.sub.8O.sub.12Th.sub.1, C.sub.4H.sub.8O.sub.8Zn.sub.1, C.sub.6H.sub.6Ag.sub.3Co.sub.1N.sub.8, Cd.sub.3Na.sub.2O.sub.10Si.sub.3, Cl.sub.3Na.sub.2O.sub.12Te.sub.4Y.sub.3, Cu.sub.1Mo.sub.2O.sub.8Sb.sub.1, Eu.sub.1O.sub.8Rb.sub.1S.sub.2, F.sub.9K.sub.5O.sub.4U.sub.2, H.sub.14Na.sub.3Np.sub.1O.sub.12, H.sub.2F.sub.4K.sub.1Mn.sub.1O.sub.1, H.sub.2F.sub.4Mn.sub.1O.sub.1Rb.sub.1, H.sub.4Ca.sub.2O.sub.13P.sub.3V.sub.1, H.sub.4F.sub.4O.sub.2Rb.sub.1V.sub.1, H.sub.8Ni.sub.1O.sub.10V.sub.2, Hg.sub.1In.sub.1S.sub.3Tl.sub.1, Hg.sub.1O.sub.7P.sub.2Pd.sub.1, K.sub.2Rb.sub.2Re.sub.6S.sub.13, K.sub.4Mo.sub.8O.sub.52P.sub.12, O.sub.14Sr.sub.3Te.sub.4U.sub.1, As.sub.2Cl.sub.3Hg.sub.3Tl.sub.1, Br.sub.3Hg.sub.3Sb.sub.2Tl.sub.1, H.sub.8Cs.sub.4O.sub.4P.sub.2Se.sub.6, H.sub.8O.sub.4P.sub.2Rb.sub.4Se.sub.6, La.sub.2O.sub.8S.sub.2Ta.sub.3, Cl.sub.1N.sub.2S.sub.1Se.sub.2, Cr.sub.2Li.sub.4N.sub.6Sr.sub.2, H.sub.6F.sub.6N.sub.2Si.sub.1, H.sub.6F.sub.1N.sub.1O.sub.2, H.sub.6F.sub.5N.sub.2Sb.sub.1, As.sub.6Ba.sub.4Cd.sub.3Li.sub.2, Ba.sub.4Cd.sub.3Li.sub.2P.sub.6, C.sub.4H.sub.12Cl.sub.8Nb.sub.2Se.sub.2, H.sub.8K.sub.4O.sub.4P.sub.2Se.sub.6, Ba.sub.1O.sub.7Sr.sub.1Ta.sub.2, Br.sub.9Cs.sub.5Nb.sub.2S.sub.4, Br.sub.9Nb.sub.2S.sub.4Tl.sub.5, Cl.sub.8Cs.sub.5I.sub.1S.sub.4U.sub.2, Cl.sub.9Cs.sub.5Nb.sub.2S.sub.4, Cl.sub.9Nb.sub.2S.sub.4Tl.sub.5, F.sub.1K.sub.1Nb.sub.2O.sub.6Sr.sub.1, H.sub.1La.sub.2Li.sub.1O.sub.3, La.sub.1O.sub.11Sr.sub.2Ta.sub.3, C.sub.4N.sub.4Pt.sub.1Rb.sub.2, Cs.sub.1F.sub.3Mo.sub.1O.sub.2, H.sub.4Al.sub.1F.sub.5O.sub.2Zn.sub.1, K.sub.1Na.sub.2O.sub.15Si.sub.6Y.sub.1, La.sub.1Nb.sub.2O.sub.7Rb.sub.1, Li.sub.2O.sub.7P.sub.2Pd.sub.1, O.sub.14P.sub.4Pd.sub.3Tl.sub.2, C.sub.4Cd.sub.1Hg.sub.1N.sub.4S.sub.4, C.sub.4Cd.sub.1Hg.sub.1N.sub.4Se.sub.4, C.sub.4Cd.sub.1N.sub.4S.sub.4Zn.sub.1, C.sub.4Cd.sub.1N.sub.4Se.sub.4Zn.sub.1, C.sub.4CO.sub.1Cs.sub.1O.sub.4, C.sub.4Hg.sub.1N.sub.4S.sub.4Zn.sub.1, C.sub.4Hg.sub.1N.sub.4Se.sub.4Zn.sub.1, Cl.sub.1K.sub.2Na.sub.1O.sub.6S.sub.2, Ba.sub.1O.sub.7Si.sub.2V.sub.1, C.sub.4H.sub.8In.sub.1K.sub.1O.sub.12, C.sub.4H.sub.8K.sub.1Lu.sub.1O.sub.12, C.sub.8K.sub.1O.sub.8Y.sub.1, Cl.sub.2K.sub.5Na.sub.1O.sub.12S.sub.4, Br.sub.4Cs.sub.2I.sub.2Pd.sub.1, Br.sub.4I.sub.2Pd.sub.1Rb.sub.2, Cl.sub.4Cs.sub.2I.sub.2Pd.sub.1, Ba.sub.4Bi.sub.3K.sub.1O.sub.1, Ba.sub.4K.sub.1O.sub.1Sb.sub.3, Ba.sub.4O.sub.1Rb.sub.1Sb.sub.3, As.sub.2Cs.sub.2O.sub.8Th.sub.1, Ce.sub.1K.sub.2O.sub.8P.sub.2, Cl.sub.2Cs.sub.2N.sub.2O.sub.6Pb.sub.1, As.sub.1K.sub.1Ni.sub.1O.sub.4, As.sub.1Na.sub.1Ni.sub.1O.sub.4, As.sub.2Ba.sub.1Ni.sub.2O.sub.8, Ba.sub.1Ni.sub.2O.sub.8P.sub.2, C.sub.4H.sub.4Cd.sub.1O.sub.6, Ca.sub.2Li.sub.6Mn.sub.2N.sub.6, Br.sub.15Cs.sub.2La.sub.1O.sub.3Ta.sub.6, Cl.sub.18Cs.sub.1Lu.sub.1Nb.sub.6, C.sub.8H.sub.24Cl.sub.18N.sub.2Nb.sub.6, Ce.sub.1O.sub.1P.sub.1Zn.sub.1, H.sub.12B.sub.12Br.sub.1Cs.sub.3, H.sub.12Bi.sub.2Br.sub.1K.sub.3, H.sub.12B.sub.12Br.sub.1Rb.sub.3, H.sub.12B.sub.12C.sub.1Cs.sub.3, H.sub.12B.sub.2Cl.sub.1Rb.sub.3, H.sub.12B.sub.12Cs.sub.3I.sub.1, H.sub.12B.sub.12I.sub.1K.sub.3, H.sub.12B.sub.21I.sub.1Rb.sub.3, As.sub.2Ba.sub.6Na.sub.2O.sub.17Ru.sub.2, Ba.sub.5Br.sub.2O.sub.9Ru.sub.2, Ba.sub.6Na.sub.2O.sub.17Ru.sub.2V.sub.2, C.sub.4Fe.sub.2Na.sub.6O.sub.16S.sub.1, Cs.sub.3Mo.sub.4O.sub.1P.sub.3, Ag.sub.3Ge.sub.3P.sub.6Sn.sub.2, Ag.sub.3P.sub.6Si.sub.3Sn.sub.2, C.sub.4Cd.sub.1K.sub.2N.sub.4, C.sub.4Hg.sub.1K.sub.2N.sub.4 and C.sub.4K.sub.2N.sub.4Zn.sub.1, wherein a crystal of the selected compound is grown in a predefined crystallographic direction (characterized by its h,k,l-indices); or is cut in a predefined crystallographic direction (characterized by its h,k,l-indices), wherein the predefined crystallographic direction is the direction of the normal vector (h,k,l) of the surface plane f(x, y, z)=0 which cuts through the Wyckoff Position of obstructed WCCs (=WP.sub.OAI), but stays away from the Wyckoff Position(s) of the atoms of the selected topological insulator (=occupied Wyckoff Position(s), =WP.sub.OCC), which condition is fulfilled when: ${\begin{matrix} (h, k, l) .Math. (x - X_{j}, y - Y_{j}, - Z_{j}) = 0, \\ (h, k, l) .Math. (x - x_{i}, y - y_{i}, z - z_{i}) \neq 0, \\ h, k, l ϵ Z \end{matrix}$ with the obstructed WCCs localized at
WP.sub.OAI={X.sub.j,Y.sub.j,Z.sub.j|RSI.sub.j≠0,j.Math.occupied positions} and atoms of the selected potentially catalytic active compound occupying
WP.sub.occ={x.sub.i,y.sub.i,z.sub.i|i∈occupied positions}.

8. A water splitting, ammonia synthesis, CO.sub.2 reduction or oxygen reduction catalyst comprising a the catalyst of claim 7.

9. The method according to claim 6, wherein the metal surface state is located within 0.4 to 0.6 eV above or below the Fermi level.

10. The method according to claim 6, wherein the metal surface state is located within about 0.5 eV above or below the Fermi level.

11. The water splitting, ammonia synthesis, CO2 reduction or oxygen reduction catalyst according to claim 8, wherein the water splitting catalyst is an Oxygen Evolution Reaction (“OER”) catalyst and/or a Hydrogen Evolution Reaction (“HER”) catalyst and the oxygen reduction catalyst is a fuel cell catalyst.

Description

DETAILED DESCRIPTION OF THE INVENTION

[0020] It was found that the active sites for heterogeneous reactions are metallic surface states, localized at/on specific crystallographic surfaces, characterized by their surface normal expressed as (h,k,l)-index (Miller index). The metallic surface states can be imagined as “dangling bonds” which extend from the catalyst's surface and which cause metallic conductivity. Inside the crystal body of a catalytic compound (the bulk) all bonds are saturated; the atomic orbitals (AOs) of the elements, which make up the catalytic compound, overlap each other, thereby forming molecular orbitals (MOs) with joint electrons. However, at the boundaries of the crystal certain atomic orbitals have no corresponding binding partner for forming a MO; they remain “unsaturated” and extend beyond the crystal boundary as “dangling bond”. Of course, the metallic surface states, or “dangling bonds”, can also be created through the introduction of defects in the crystal structure, such as elemental vacancies. It was found that the above-defined metal surface states increase catalytic efficiency. Thus, with the knowledge of the above finding one can [0021] a) explain the catalytic efficiency of known catalytic compounds, [0022] b) turn a given compound, which has yet uncovered catalytic potential, into an efficient catalyst by cutting or growing a crystal of this potential catalytic material in a predefined crystallographic direction (characterized by its surface normal, expressed in Miller indices (h,k,l)), thereby revealing the metal surface states. The direction is determined by the crystal surface with metallic surface states, which can be calculated (see below) or obtained from the below material list [0023] c) eventually improve the catalytic efficiency of known catalytic compounds with method b), [0024] d) screen known compounds for catalytic material, and/or [0025] e) provide a list of compounds that can be used as catalysts.

[0026] As used herein the following terms have the following meaning:

[0027] “Surface properties” means the bonding and electronic structures at the surface of a crystal.

[0028] “Topological trivial insulator” means an insulator according to the traditional definition, i.e. one that has no topological feature(s) such as band inversion between conduction and valence band. Consequently, insulators that exhibit (a) topological feature(s) are called “topological insulators”.

[0029] “Indirect band gap” means that the bottom of the conduction band and the top of the valence band have different crystal momentum (k-vector) in the Brillouin zone.

[0030] “Metallic surface states” means the dangling bonds derived electronic states, which are located between the conduction and valence band. These surface states have de-localized electrons and are highly electrically conductive. In the real space, they are at the crystal surface.

[0031] In the Momentum space (k), they are located in the gap between the bulk conduction and valence band.

[0032] “Certain surfaces” means the surface of a catalyst crystal with a surface normal of a designated Miller-index ((h,k,l)-index).

[0033] “Catalytic active site” means the crystal surfaces where heterogeneous catalysis reactions may occur.

[0034] “Occupied positions” means the available Wyckoff positions in a given space group which is/are occupied by (an) atom(s). An example is given below for space group No. 25 (Pmm2):

TABLE-US-00001 Wyckoff Positions of Group Pmm2 (No. 25) Wyckoff Site Multiplicity letter symmetry Coordinates 4 i 1 (x, y, z) (−x, −y, z) (x, −y, z) (−x, y, z) 2 h m.. (½, y, z) (½, −y, z) 2 g m.. (0, y, z) (0, −y, z) 2 f .m. (x, ½, z) (−x, ½, z) 2 e .m. (x, 0, z) (−x, 0, z) 1 d mm2 (½, ½, z) 1 c mm2 (½, 0, z) 1 b mm2 (0, ½, z) 1 a mm2 (0, 0, z)

[0035] Thus, a Wyckoff position of a defined space group consists of all points X for which the site-symmetry groups are conjugate subgroups of the defined space group. Each Wyckoff position of a space group is labelled by a letter which is called the Wyckoff letter. The number of different Wyckoff positions of each space group is finite, the maximal numbers being 9 for plane groups (realized in p2 mm) and 27 for space groups (realized in Pmmm). There is a total of 72 Wyckoff positions in plane groups and 1731 Wyckoff positions in space groups.

[0036] Heterogeneous catalytic reactions are a type of catalytic process where the catalyst and the reactants are not present in the same phase. This occurs e.g. in reactions between gases or liquids or both at the surface of a solid catalyst. Typical heterogeneous catalytic reactions include photocatalytic/electrochemical water splitting, ammonia synthesis, CO.sub.2 reduction, and oxygen reduction reaction (ORR) e.g. in fuel cells. According to the classic surface adsorption theory, a heterogeneous reaction comprises four stages: [0037] 1) Diffusion of a reactant to the solid catalyst surface. The diffusion rate is determined by the bulk concentration of the reactant and the thickness of the boundary layer (a layer of solution formed at the catalyst surface) surrounding the catalyst particle. [0038] 2) The adsorption of reactants onto the surface of the catalyst through chemical or physical bonding. [0039] 3) Oxidation or reduction at the catalyst surface, which is characterized by an electron transfer between the catalyst and adsorbates. [0040] 4) Desorption of the reaction product. This process is accompanied by a breaking of (a) bond(s) as the product(s) desorb from the surface of the catalyst.

[0041] The catalytic efficiency generally depends on the adsorption energy of the adsorbates/reaction intermediates and the catalytic active site(s). A good catalyst requires that the adsorption energy is “just right” so that the products can be formed and released as quickly as possible. Adsorption energy can be positive or negative; positive energy means the adsorption is weak, while negative energy means good, i.e. strong adsorption. However, an adsorption energy which is too positive will lead to a low concentration of reactants at the catalyst surface(s) and therefore will increase the reaction kinetics. On the other hand, if the adsorption energy is too negative the products remain on the catalyst surface too long and may act as “poison” to the active site(s).

[0042] It was now found that the catalytic efficiency of topological insulators, specifically topological trivial insulators, directly correlates with its metallic surface states. Using the Topological Quantum Chemistry (TQC) Theory (Nature 547.7663 (2017): 298-305), all of the topological trivial, as well as the topologically nontrivial, band insulators in the Inorganic Crystal Structure Database (ICSD) (Nature 566.7745) (2017): 480-485) were identified. Topologically trivial insulators come in two distinct categories: with and without surface states.

[0043] The Band Representations (BRs) of the valence bands of all these topological band insulators were identified (see: Nature 566.7745) (2017): 480-485; and in the Topological materials database, see: https://www.topologicalquantumchemistry.com). For a given topological band insulator with atoms sitting at the Wyckoff positions WP.sub.occ={x.sub.i, y.sub.i, z.sub.i|i∈occ=occupied position}, using the BRs and the formulae of Real Space Invariants (RSI) e.g. disclosed in “Science 367 (6479), 794-797 (2020)”, one can calculate the RSIs of all the Wyckoff positions (WPs) of the crystal symmetry group. Thus, for a given space group, one can define RSIs for each of the Wyckoff positions of that space group. For a topological band insulator, the RSI defined at a Wyckoff position is always an integer, which stands for the number of irreducible Wannier orbitals (=irreducible Wannier Charge Centers (WCCs)) at that Wyckoff position.

[0044] The Wyckoff positions with nonzero RSI give the positions of irreducible Wannier Charge Centers (WCCs) (Physical Review B 89.11 (2014)), WP.sub.wcc={x.sub.k,y.sub.k,z.sub.k|RSI.sub.k≠0}. Any BRs of a topological band insulator, which have at least one irreducible WCC localized at the empty Wyckoff position (i.e. a Wyckoff position which is not occupied by atom), is in the obstructed atomic limit phase, i.e. ∃(X.sub.j, Y.sub.j, Z.sub.j)∈WP.sub.wcc, (X.sub.j, Y.sub.j, Z.sub.j).Math.WP.sub.occ. Thus, all of the Wyckoff positions, which have nonzero RSI and which are not occupied by the atoms of the material are called “obstructed Wyckoff positions”, WP.sub.OAI={X.sub.j, Y.sub.j, Z.sub.j|RSI.sub.j≠0, j.Math.occupied positions}. A band insulator is a not obstructed atomic insulator when all of its irreducible WCCs are occupied by atoms. Otherwise, it is an Obstructed Atomic Insulator (OAI).

[0045] For Obstructed Atomic Insulators with occupied Wyckoff Positions WP.sub.occ={x.sub.i, y.sub.i, z.sub.i|i∈occupied positions} and obstructed Wyckoff positions WP.sub.OAI={X.sub.j, Y.sub.j, Z.sub.j|RSI.sub.j≠0, j∈occupied positions}, their surface planes f(x, y, z)=0 with Miller index (or normal vector) (h,k,l) have metallic surface states when (h,k,l) satisfy the following conditions:

[00003] ${\begin{matrix} (h, k, l) .Math. (x - X_{j}, y - Y_{j}, - Z_{j}) = 0, \\ (h, k, l) .Math. (x - x_{i}, y - y_{i}, z - z_{i}) \neq 0, \\ h, k, l ϵ Z \end{matrix}$

[0046] This means that the surface plane f(x, y, z)=0 with normal vector (h,k,l) cuts through the position of obstructed Wyckoff positions, but stays away from the occupied positions in a crystal.

[0047] Any cleaved crystal surface that cuts through theses obstructed Wyckoff Positions must have metallic surface states on that crystal surface. The location of these metallic surface states on the surface of a catalyst crystal can be predicted with the above theory. This is illustrated in FIGS. 1 and 2 for a MoS.sub.2 crystal. The surface states are located at the edge sites with dangling bonds. The (001) basal plane has no surface states and is inert for catalytic reactions. However, edge sites which are normal to the (001) face, like (100), or (010), or (110) etc. are active towards catalytic reactions such as hydrogen evolution. When these metallic surface states are located near the Fermi level (i.e. up to about 0.5 eV below or above the Fermi level) they can be transferred easily in catalytic reactions, and can serve as active centers for chemical reactions.

[0048] The position of the metallic surface state in a MoS.sub.2 crystal is shown in FIG. 3. MoS.sub.2 crystallizes in space group P6.sub.3/mmc (#194) with Mo and S at Wyckoff position 2c (⅓, ⅔, ¼) and 4f (⅓, ⅔, z) (where z is a general position not equal to ¼), respectively. Using the Topological quantum chemistry (TQC) theory, the Real Space Invariants (RSI) at Wyckoff position 2b (0,0,¼) is δ(b)=1.0. Thus, there is an irreducible WCC localized at the 2b position, which is not occupied by an atom. This shows, that with the above theory one can identify the surface plane in MoS.sub.2 which has metallic surface states (indicated by its Miller index (1,0,0)) as shown in FIG. 3(a). On the other hand, the surface with Miller index (0,0,1) cuts the 2c position which is occupied with an atom. Therefore, the (001) surface does not have metallic surface states within the energy gap, as shown in FIG. 3(b).

[0049] The prediction of the catalytic behavior of MoS.sub.2 crystal has been proven experimentally. FIG. 4 shows the experimental setup for the HER. The bulk MoS.sub.2 single crystal is attached to a titanium wire with silver paint. The edges and basal plane can be seen clearly in FIG. 4. FIG. 5a shows the linear polarization curves for the whole crystal (Edge+basal plane), Edges only, and basal plane. It can be seen that the activity of the whole crystal is almost the same as that of the edges. The activities decrease significantly when the edges are partially covered with a gel. FIG. 5b shows a photo taken at an overpotential of −0.57 vs RHE. Hydrogen bubbles are formed at the edges, but not on the basal plane. Thus, it can be concluded that the HER activity comes from the crystal edges.

[0050] Accordingly, the invention provides a method of selecting a potentially catalytic active compound which method comprises [0051] identifying all the topological insulators in the ICSD, preferably all the topological trivial insulators, [0052] calculating the Real Space Invariants of the valence bands for all these topological insulators in order to [0053] identify in all these topological insulators the Wyckoff Positions where the irreducible Wannier Charge Centers (WCCs) are localized, and then [0054] selecting as potentially catalytic active compound a topological insulator wherein the position of WCCs is not occupied by any atom.

[0055] This method was applied to all compounds in the ICSD and the potentially catalytic active compounds have been identified. These compounds are listed in the attached Table labelled “OAI”. Many compounds in this table have multiple listings. Multiple listings of the same compound (meaning the same stoichiometry) may occur when different contributors to the ICSD have reported (slightly) varying data like varying lattice parameter, different space group allocations or Wyckoff allocations etc. The condensed list of unique compounds (=one listing only) is reproduced in the following Table 1:

TABLE-US-00002 TABLE 1 Ba.sub.1P.sub.8, I.sub.4P.sub.2, Mn.sub.1P.sub.4, Nb.sub.2Se.sub.9, Os.sub.1P.sub.4, P.sub.3Ru.sub.1, P.sub.4Ru.sub.1, P.sub.5Re.sub.2, Re.sub.1S.sub.2, Re.sub.1Se.sub.2, S.sub.2Tc.sub.1, Lu.sub.1P.sub.5, P.sub.5Y.sub.1, As.sub.1Ge.sub.1, As.sub.1Si.sub.1, Ba.sub.1P.sub.3, Bi.sub.1S.sub.2, Bi.sub.1Se.sub.2, Br.sub.4Nb.sub.1, Br.sub.6Si.sub.2, C.sub.22F.sub.14, C.sub.2Ca.sub.1, Ca.sub.5P.sub.8, Cl.sub.3Mo.sub.1, Cl.sub.3Y.sub.2, Cl.sub.4Nb.sub.1, Cl.sub.4Ta.sub.1, Cs.sub.5Te.sub.3, Ga.sub.1Te.sub.1, Ge.sub.1P.sub.1, Hg.sub.1O.sub.2, In.sub.1Se.sub.1, K.sub.1Sb.sub.2, Na.sub.1P.sub.2, O.sub.2Rb.sub.2, P.sub.3Sr.sub.1, Rb.sub.1Sb.sub.2, Ag.sub.1P.sub.2, As.sub.2Co.sub.1, As.sub.2Ir.sub.1, As.sub.2La.sub.1, As.sub.2Rh.sub.1, Au.sub.1O.sub.1, B.sub.2F.sub.4, B.sub.4Mn.sub.1, Ca.sub.1O.sub.2, Cd.sub.1P.sub.4, Co.sub.1P.sub.2, Cs.sub.1Te.sub.4, Cs.sub.2I.sub.8, Cu.sub.1P.sub.2, Fe.sub.1P.sub.4, Fe.sub.1S.sub.1, Ga.sub.2I.sub.3, Hg.sub.2N.sub.6, Ir.sub.1N.sub.2, Ir.sub.1P.sub.2, Ir.sub.1Sb.sub.2, La.sub.1P.sub.7, La.sub.1S.sub.2, La.sub.1Se.sub.2, Li.sub.2O.sub.2, Mg.sub.1P.sub.4, N.sub.2O.sub.4, N.sub.2S.sub.2, O.sub.2Tc.sub.1, P.sub.2Rh.sub.1, P.sub.7Pb.sub.1, Rh.sub.1Sb.sub.2, Rh.sub.1Si.sub.1, Sb.sub.1Zn.sub.1, Ba.sub.1S.sub.2, Ba.sub.1Se.sub.2, C.sub.2Ba.sub.1, C.sub.2Sr.sub.1, I.sub.6Pt.sub.2, Ni.sub.1P.sub.2, O.sub.2Si.sub.1, P.sub.2Pd.sub.1, S.sub.2Yb.sub.1, S.sub.4V.sub.1, Se.sub.3Tl.sub.2, Se.sub.9V.sub.2, Te.sub.3Tl.sub.2, As.sub.3Ca.sub.4, Cs.sub.2Te.sub.2, K.sub.2O.sub.2, Rb.sub.2Te.sub.2, As.sub.2Fe.sub.1, As.sub.2Os.sub.1, As.sub.2Ru.sub.1, C.sub.1N.sub.1, Fe.sub.1P.sub.2, Fe.sub.1S.sub.2, Fe.sub.1Sb.sub.2, Fe.sub.1Se.sub.2, In.sub.1S.sub.1, N.sub.2Pt.sub.1, Os.sub.1P.sub.2, Os.sub.1Sb.sub.2, P.sub.2Ru.sub.1, Ru.sub.1Sb.sub.2, Ru.sub.1Te.sub.2, Ge.sub.3Os.sub.2, Ge.sub.3Ru.sub.2, Os.sub.2Si.sub.3, Ru.sub.2Si.sub.3, As.sub.1Cd.sub.1, As.sub.1Zn.sub.1, B.sub.2Cl.sub.4, C.sub.2N.sub.2, Cd.sub.1Sb.sub.1, Cl.sub.1O.sub.2, P.sub.4Re.sub.1, P.sub.4Tc.sub.1, Pd.sub.1S.sub.2, B.sub.2Fe.sub.1, Na.sub.1P.sub.5, P.sub.3Re.sub.1, P.sub.3Tc.sub.1, Ba.sub.5P.sub.4, Ba.sub.5Sb.sub.4, K.sub.1Tl.sub.1, Ba.sub.1O.sub.2, F.sub.3La.sub.1, As.sub.6Cs.sub.4, As.sub.6Rb.sub.4, Cs.sub.4P.sub.6, K.sub.4P.sub.6, P.sub.6Rb.sub.4, Al.sub.2Ru.sub.1, Ga.sub.2Os.sub.1, Ga.sub.2Ru.sub.1, C.sub.2Li.sub.2, C.sub.2Na.sub.2, Cs.sub.2O.sub.2, Cs.sub.2S.sub.2, Rb.sub.2S.sub.2, B.sub.3Si.sub.1, H.sub.6Ru.sub.1, O.sub.64Si.sub.32, K.sub.5Te.sub.3, B.sub.10F.sub.12, Li.sub.1Si.sub.1, C.sub.1N.sub.2, Ca.sub.1In.sub.3, Ga.sub.3K.sub.1, Ga.sub.3Rb.sub.1, H.sub.8Si.sub.1, C.sub.2Mg.sub.1, Fe.sub.1Ga.sub.3, Ga.sub.3Os.sub.1, Ga.sub.3Ru.sub.1, In.sub.3Ru.sub.1, Li.sub.2S.sub.2, B.sub.4Os.sub.1, Cl.sub.2Zn.sub.1, Hg.sub.1I.sub.2, Hg.sub.2I.sub.4, Al.sub.2Os.sub.1, As.sub.1Ca.sub.2, Bi.sub.1Ca.sub.2, Br.sub.1Hg.sub.1, Br.sub.2Hg.sub.2, Cl.sub.2Hg.sub.2, F.sub.2Hg.sub.2, Ga.sub.3K.sub.2, Hg.sub.1I.sub.1, Hg.sub.2I.sub.2, In.sub.3Rb.sub.2, O.sub.2Sr.sub.1, Ba.sub.1Te.sub.2, O.sub.2Zn.sub.1, S.sub.2Sr.sub.1, Au.sub.1Br.sub.1, Au.sub.1Cl.sub.1, O.sub.3U.sub.1, Br.sub.12Zr.sub.6, Cl.sub.12Zr.sub.6, I.sub.12Zr.sub.6, I.sub.6Si.sub.2, As.sub.1B.sub.6, As.sub.2B.sub.12, B.sub.12P.sub.2, B.sub.12Si.sub.3, B.sub.6O.sub.1, B.sub.6P.sub.1, Br.sub.8Nb.sub.3, C.sub.1B.sub.4, C.sub.3B.sub.12, Ga.sub.1S.sub.1, I.sub.8Nb.sub.3, Cr.sub.1N.sub.2, Ga.sub.1Se.sub.1, Mo.sub.1N.sub.2, N.sub.2W.sub.1, Ca.sub.1P.sub.1, Ca.sub.2P.sub.2, K.sub.2S.sub.2, K.sub.2Se.sub.2, Na.sub.2O.sub.2, Na.sub.2S.sub.2, P.sub.1Sr.sub.1, C.sub.2Os.sub.1, Hf.sub.1N.sub.2, K.sub.2Te.sub.2, Mo.sub.1S.sub.2, Mo.sub.1Se.sub.2, Mo.sub.1Te.sub.2, Na.sub.1S.sub.1, Na.sub.2Se.sub.2, S.sub.2W.sub.1, Se.sub.2W.sub.1, Te.sub.2W.sub.1, As.sub.2Pt.sub.1, Cd.sub.1O.sub.2, Cd.sub.1S.sub.2, Cd.sub.1Se.sub.2, Fe.sub.1Te.sub.2, Mg.sub.1O.sub.2, Mg.sub.1Se.sub.2, Mg.sub.1Te.sub.2, N.sub.2Pd.sub.1, Os.sub.1S.sub.2, Os.sub.1Se.sub.2, Os.sub.1Te.sub.2, P.sub.2Pt.sub.1, Ru.sub.1S.sub.2, Ru.sub.1Se.sub.2, S.sub.2Zn.sub.1, Se.sub.2Zn.sub.1, Ag.sub.1Br.sub.1, Ag.sub.1Cl.sub.1, Ag.sub.1I.sub.1, B.sub.4Fe.sub.1, Be.sub.5Pt.sub.1, Br.sub.1Cu.sub.1, Cd.sub.1S.sub.1, Cd.sub.1Se.sub.1, Cd.sub.1Te.sub.1, Cl.sub.1Cu.sub.1, Cu.sub.1I.sub.1, Cu.sub.5Tb.sub.1, O.sub.1Zn.sub.1, S.sub.1Sn.sub.1, S.sub.1Zn.sub.1, Se.sub.1Zn.sub.1, Te.sub.1Zn.sub.1, B.sub.6Ca.sub.1, B.sub.6Si.sub.1, B.sub.6Sr.sub.1 and B.sub.1Li.sub.1, Al.sub.2Cd.sub.2Cl.sub.8, Al.sub.4Cl.sub.14Te.sub.4, As.sub.1Fe.sub.1S.sub.1, Au.sub.1Br.sub.8Te.sub.1, B.sub.18Cs.sub.8S.sub.18, B.sub.18Rb.sub.8S.sub.18, B.sub.18Rb.sub.8Se.sub.18, B.sub.8Br.sub.6P.sub.4, Bi.sub.2Br.sub.8Te.sub.4, Bi.sub.4Cl.sub.16Te.sub.14, Bi.sub.6Cl.sub.20Te.sub.4, Br.sub.12Ta.sub.2Te.sub.4, Br.sub.1Mo.sub.1Te.sub.4, Br.sub.2Nb.sub.1S.sub.2, Br.sub.2Nb.sub.1Se.sub.2, C.sub.22Co.sub.6O.sub.18, C.sub.2I.sub.10La.sub.6, C.sub.2O.sub.4Pb.sub.1, Cl.sub.12Ta.sub.2Te.sub.4, Cl.sub.18P.sub.2Re.sub.2, Cl.sub.2Nb.sub.1Se.sub.2, Cl.sub.5O.sub.4Re.sub.2, Cl.sub.6Hf.sub.1Te.sub.4, Cl.sub.8Ga.sub.2Hg.sub.2, Cs.sub.1Sb.sub.2Se.sub.4, Cs.sub.2S.sub.6Sn.sub.2, Cs.sub.2S.sub.8Sb.sub.4, Cs.sub.2Se.sub.6Sn.sub.2, Cs.sub.4P.sub.2Se.sub.10, Cu.sub.4P.sub.3Se.sub.4, F.sub.12I.sub.4Sb.sub.2, F.sub.12Sb.sub.2Te.sub.4, Ge.sub.1Li.sub.1Te.sub.2, Ge.sub.2Te.sub.6Tl.sub.6, Hg.sub.1O.sub.3V.sub.1, Hg.sub.2P.sub.2S.sub.6, I.sub.12Nb.sub.2Te.sub.8, I.sub.1Ta.sub.1Te.sub.4, In.sub.2O.sub.5P.sub.1, K.sub.2O.sub.8S.sub.2, K.sub.2Sb.sub.4Se.sub.8, La.sub.6O.sub.18Re.sub.4, Li.sub.1Mo.sub.1S.sub.2, Mo.sub.4N.sub.14Sr.sub.10, Na.sub.2O.sub.8S.sub.2, Rb.sub.2Sb.sub.4Se.sub.8, Si.sub.2Te.sub.6Tl.sub.6, As.sub.2Ga.sub.2Sr.sub.1, C.sub.2Ca.sub.1O.sub.4, Al.sub.2Na.sub.7Sb.sub.5, Ba.sub.3P.sub.6Si.sub.4, Bi.sub.9I.sub.3Rh.sub.2, Cl.sub.7Nb.sub.3Se.sub.5, Ir.sub.2Se.sub.5Sn.sub.1, K.sub.4P.sub.8Te.sub.4, Al.sub.1O.sub.4W.sub.1, As.sub.1Cl.sub.2Hg.sub.2, As.sub.2F.sub.12I.sub.4, As.sub.3Ba.sub.2Cd.sub.2, As.sub.3Sr.sub.2Zn.sub.2, Ba.sub.5Cr.sub.1N.sub.5, Bi.sub.4Br.sub.2Ru.sub.1, Br.sub.10Te.sub.4Zr.sub.2, C.sub.1B.sub.2O.sub.2, C.sub.1N.sub.1Th.sub.1, C.sub.2Br.sub.2Gd.sub.2, C.sub.2La.sub.2O.sub.2, C.sub.4Cs.sub.2O.sub.4, C.sub.4Li.sub.2O.sub.4, C.sub.4O.sub.4Rb.sub.2, Cd.sub.1P.sub.1S.sub.3, Cd.sub.2P.sub.2S.sub.6, Cd.sub.6Sb.sub.12Sr.sub.11, Cl.sub.2Hg.sub.2P.sub.1, Cl.sub.2Nb.sub.1S.sub.2, Fe.sub.1P.sub.1S.sub.3, Fe.sub.2P.sub.2S.sub.6, Ge.sub.1K.sub.3S.sub.3, Ge.sub.2K.sub.6S.sub.6, Ge.sub.2K.sub.6Se.sub.6, Hg.sub.6O.sub.7Si.sub.2, I.sub.2O.sub.1Ta.sub.1, K.sub.6Si.sub.2Te.sub.6, Mg.sub.1P.sub.1S.sub.3, Na.sub.4P.sub.2S.sub.6, Ni.sub.1P.sub.1S.sub.3, Ni.sub.1P.sub.1Se.sub.3, Ni.sub.2P.sub.2S.sub.6, P.sub.1S.sub.3Zn.sub.1, P.sub.2S.sub.6V.sub.2, P.sub.2S.sub.6Zn.sub.2, P.sub.6Si.sub.8Zn.sub.4, Hg.sub.2Mo.sub.2O.sub.7, Hg.sub.2O.sub.4S.sub.1, Hg.sub.2O.sub.4Se.sub.1, Hg.sub.4O.sub.7P.sub.2, K.sub.2Mo.sub.8O.sub.16, Ag.sub.5Ge.sub.1O.sub.4, As.sub.1Cd.sub.2Cl.sub.2, As.sub.1Fe.sub.1Se.sub.1, As.sub.1Fe.sub.1Te.sub.1, As.sub.1Ru.sub.1Te.sub.1, As.sub.2Cs.sub.4Te.sub.6, As.sub.2F.sub.12Hg.sub.4, As.sub.2Hg.sub.6O.sub.10, As.sub.2Hg.sub.6O.sub.8, Ba.sub.1P.sub.3Pt.sub.2, Ba.sub.2P.sub.2S.sub.6, Ba.sub.2P.sub.2Se.sub.6, Ba.sub.6P.sub.6Sn.sub.2, Bi.sub.1Os.sub.1Se.sub.1, Br.sub.14Ga.sub.4Te.sub.4, Br.sub.3Hg.sub.2Te.sub.1, C.sub.1D.sub.1K.sub.1O.sub.3, C.sub.2Ag.sub.2O.sub.4, C.sub.2Cd.sub.1O.sub.4, C.sub.2H.sub.6O.sub.6, C.sub.2Li.sub.2O.sub.4, C.sub.2Na.sub.2O.sub.4, C.sub.2O.sub.4Tl.sub.2, C.sub.2O.sub.4Zn.sub.1, C.sub.4Na.sub.2O.sub.4, Ca.sub.1Mo.sub.5O.sub.8, Ca.sub.2P.sub.2S.sub.6, Ca.sub.2P.sub.2Se.sub.6, Cd.sub.2Cl.sub.2P.sub.1, Cl.sub.14Ga.sub.4Te.sub.4, Cl.sub.3Cu.sub.1K.sub.1, Cl.sub.3Mo.sub.1S.sub.2, Cl.sub.7O.sub.3Re.sub.2, Co.sub.1K.sub.2O.sub.2, Cs.sub.1O.sub.5V.sub.2, Cs.sub.2O.sub.8S.sub.2, Cs.sub.2Se.sub.6Te.sub.2, Cu.sub.1La.sub.2S.sub.4, Fe.sub.1P.sub.1S.sub.1, Fe.sub.1P.sub.1Se.sub.1, Fe.sub.1S.sub.1Sb.sub.1, Fe.sub.1Sb.sub.1Se.sub.1, Fe.sub.1Sb.sub.1Te.sub.1, Ge.sub.2Na.sub.6Se.sub.6, Ge.sub.2Na.sub.6Te.sub.6, H.sub.4B.sub.2O.sub.4, Hg.sub.1O.sub.4Re.sub.1, Hg.sub.2N.sub.2O.sub.4, Hg.sub.4N.sub.2O.sub.8, Hg.sub.6O.sub.8P.sub.2, I.sub.1Nb.sub.2Te.sub.6, In.sub.4P.sub.6S.sub.18, K.sub.4O.sub.8P.sub.2, K.sub.6Se.sub.6Sn.sub.2, K.sub.6Sn.sub.2Te.sub.6, Mo.sub.5O.sub.8Sr.sub.1, Na.sub.6Si.sub.2Te.sub.6, Os.sub.1P.sub.1S.sub.1, Os.sub.1P.sub.1Se.sub.1, Os.sub.1S.sub.1Sb.sub.1, Os.sub.1Sb.sub.1Se.sub.1, Os.sub.1Sb.sub.1Te.sub.1, P.sub.1Pb.sub.1Se.sub.3, P.sub.1Ru.sub.1S.sub.1, P.sub.1Ru.sub.1Se.sub.1, P.sub.1Se.sub.3Sn.sub.1, P.sub.2Pb.sub.2S.sub.6, P.sub.2Pb.sub.2Se.sub.6, P.sub.2S.sub.6Sn.sub.2, P.sub.2S.sub.6Sr.sub.2, P.sub.2Se.sub.6Sn.sub.2, P.sub.2Se.sub.6Sr.sub.2, P.sub.2Se.sub.6Tl.sub.4, Ru.sub.1S.sub.1Sb.sub.1, Ru.sub.1Sb.sub.1Se.sub.1, Ru.sub.1Sb.sub.1Te.sub.1, Ag.sub.2O.sub.2Pb.sub.1, As.sub.1F.sub.6I.sub.5, As.sub.3Br.sub.1Cd.sub.2, As.sub.3Br.sub.1Hg.sub.2, As.sub.3Cd.sub.2I.sub.1, As.sub.6Ba.sub.1Pt.sub.4, As.sub.6Pt.sub.4Sr.sub.1, Au.sub.1Cl.sub.1O.sub.2, Au.sub.1Cl.sub.4Cs.sub.1, Au.sub.1Cl.sub.4Rb.sub.1, Au.sub.1Cl.sub.4Tl.sub.1, Au.sub.1F.sub.4Li.sub.1, Au.sub.1Li.sub.1S.sub.1, B.sub.2Li.sub.2Se.sub.5, Bi.sub.3Cl.sub.1O.sub.4, Br.sub.1Cd.sub.2P.sub.3, Br.sub.2Hg.sub.2O.sub.6, C.sub.2O.sub.4Sn.sub.1, C.sub.4Ag.sub.2O.sub.4, Cd.sub.2Cl.sub.1P.sub.3, Cd.sub.2I.sub.1P.sub.3, Cd.sub.2O.sub.12P.sub.4, Cl.sub.1Hg.sub.2O.sub.1, Cl.sub.1Hg.sub.2P.sub.3, Cl.sub.2Hg.sub.4O.sub.2, Cl.sub.4Os.sub.1Sc.sub.4, Cs.sub.1F.sub.7Sb.sub.2, Cs.sub.2Re.sub.3Se.sub.6, Cs.sub.4Re.sub.6S.sub.13, Cs.sub.4Re.sub.6Se.sub.13, Cs.sub.4S.sub.13Tc.sub.6, Cs.sub.4Se.sub.13Tc.sub.6, Cs.sub.6Ge.sub.2Se.sub.6, Cs.sub.6Ge.sub.2Te.sub.6, Cs.sub.6Sn.sub.2Te.sub.6, Cu.sub.2O.sub.2Pb.sub.1, Cu.sub.2Re.sub.3Se.sub.6, Fe.sub.2O.sub.12P.sub.4, Ge.sub.2K.sub.6Te.sub.6, Hg.sub.2P.sub.2Se.sub.6, K.sub.2Re.sub.3S.sub.6, K.sub.2Re.sub.3Se.sub.6, K.sub.4Re.sub.6Se.sub.12, K.sub.4S.sub.12Tc.sub.6, K.sub.4Se.sub.12Tc.sub.6, Mn.sub.2Mo.sub.1P.sub.12, Na.sub.2Nb.sub.4O.sub.11, Na.sub.2Re.sub.3S.sub.6, Na.sub.2Re.sub.3Se.sub.6, O.sub.3Si.sub.1Sr.sub.1, O.sub.4Pd.sub.1S.sub.1, O.sub.4Pt.sub.1S.sub.1, O.sub.7P.sub.2Pd.sub.2, P.sub.6Pt.sub.4Sr.sub.1, Rb.sub.2Re.sub.3S.sub.6, Rb.sub.2Re.sub.3Se.sub.6, Rb.sub.4Re.sub.6S.sub.12, Rb.sub.4Re.sub.6S.sub.13, Rb.sub.4Re.sub.6Se.sub.12, Rb.sub.4S.sub.13Tc.sub.6, Rb.sub.4Se.sub.12Tc.sub.6, Re.sub.3S.sub.6Tl.sub.2, Re.sub.3Se.sub.6Tl.sub.2, Re.sub.6Se.sub.12Tl.sub.4, Br.sub.11Cs.sub.1Nb.sub.4, Br.sub.11Nb.sub.4Rb.sub.1, Cl.sub.11Cs.sub.1Nb.sub.4, Cl.sub.11Nb.sub.4Rb.sub.1, Al.sub.2Ca.sub.5Sb.sub.6, Al.sub.2Cl.sub.8Se.sub.4, As.sub.6Ca.sub.5Ga.sub.2, Ba.sub.1Nb.sub.8O.sub.14, Ba.sub.3O.sub.1Sb.sub.2, Ba.sub.5In.sub.2Sb.sub.6, C.sub.2K.sub.2O.sub.4, C.sub.2O.sub.4Rb.sub.2, Ca.sub.5In.sub.2Sb.sub.6, In.sub.2Sb.sub.6Sr.sub.5, Nb.sub.8O.sub.14Sr.sub.1, Ag.sub.5O.sub.4Si.sub.1, Br.sub.1Hg.sub.2P.sub.3, Nb.sub.2Ni.sub.1O.sub.6, O.sub.9P.sub.2V.sub.2, Al.sub.2Cl.sub.8Te.sub.4, Au.sub.1O.sub.4S.sub.1, Cl.sub.2N.sub.4S.sub.6, Co.sub.1Ge.sub.1Te.sub.1, Cu.sub.1O.sub.3Se.sub.1, Cu.sub.1P.sub.2Se.sub.1, Ge.sub.1Rh.sub.1Te.sub.1, O.sub.6P.sub.2Tl.sub.4, Pt.sub.1Sb.sub.1Si.sub.1, Al.sub.1K.sub.1Sb.sub.4, Al.sub.1P.sub.3Si.sub.1, As.sub.1La.sub.1Te.sub.1, As.sub.2Hg.sub.4O.sub.7, Ba.sub.1P.sub.4Te.sub.2, Cs.sub.2Ge.sub.1Te.sub.4, Cs.sub.2Sn.sub.1Te.sub.4, Ga.sub.1K.sub.1Sb.sub.4, H.sub.2B.sub.1Li.sub.1, La.sub.1Mn.sub.1S.sub.3, La.sub.1P.sub.1S.sub.1, P.sub.1S.sub.1Y.sub.1, P.sub.2Ru.sub.2Th.sub.1, I.sub.1K.sub.4P.sub.21, I.sub.1P.sub.21Rb.sub.4, B.sub.12Li.sub.2Si.sub.2, B.sub.2Ba.sub.1Se.sub.6, In.sub.9K.sub.1Na.sub.3, La.sub.2O.sub.2S.sub.2, Na.sub.4P.sub.2Se.sub.6, Nb.sub.1P.sub.2S.sub.8, F.sub.6Pa.sub.1Rb.sub.1, Au.sub.1Na.sub.1S.sub.1, Cs.sub.2Ni.sub.3S.sub.4, Cs.sub.2Ni.sub.3Se.sub.4, Cs.sub.2Pd.sub.3Se.sub.4, Cs.sub.2Pt.sub.3S.sub.4, Cs.sub.2Pt.sub.3Se.sub.4, Li.sub.2O.sub.4U.sub.1, Na.sub.2O.sub.4U.sub.1, Ni.sub.3Rb.sub.2S.sub.4, Pt.sub.3Rb.sub.2S.sub.4, Au.sub.1Cs.sub.1F.sub.4, Au.sub.5Cs.sub.7O.sub.2, Au.sub.5O.sub.2Rb.sub.7, Br.sub.3Cs.sub.1Li.sub.2, Cl.sub.2I.sub.2Ta.sub.1, Cl.sub.3Cs.sub.1Li.sub.2, Hf.sub.2N.sub.2S.sub.1, Li.sub.2Ni.sub.1O.sub.2, Na.sub.2O.sub.3Ti.sub.1, Na.sub.2O.sub.4Pd.sub.3, O.sub.3Pd.sub.1Sr.sub.2, Al.sub.1B.sub.14Li.sub.1, Ba.sub.1Ce.sub.1O.sub.3, C.sub.2B.sub.13Li.sub.1, Cu.sub.11K.sub.3Te.sub.16, O.sub.4P.sub.1Rh.sub.1, O.sub.4Si.sub.1Zn.sub.2, P.sub.2S.sub.6Th.sub.1, P.sub.2S.sub.6Zr.sub.1, Ba.sub.9Br.sub.34O.sub.1Pr.sub.6, Bi.sub.4I.sub.2Ru.sub.1, La.sub.4O.sub.10Re.sub.2, Br.sub.2Cs.sub.1F.sub.1, C.sub.2Ag.sub.1K.sub.1, C.sub.2Au.sub.1Cs.sub.1, C.sub.2Au.sub.1K.sub.1, C.sub.2Au.sub.1Na.sub.1, C.sub.2Au.sub.1Rb.sub.1, C.sub.2Cu.sub.1Rb.sub.1, C.sub.2Ag.sub.1Cs.sub.1, C.sub.2Cu.sub.1K.sub.1, Cl.sub.3O.sub.1W.sub.1, I.sub.3O.sub.1W.sub.1, Li.sub.6O.sub.4Zn.sub.1, Cl.sub.6Hf.sub.1Se.sub.4, Cl.sub.6Se.sub.4Zr.sub.1, Br.sub.2Cs.sub.2F.sub.2, Cs.sub.2I.sub.6Pd.sub.1, C.sub.4Ba.sub.1O.sub.4, Ag.sub.3Cu.sub.1S.sub.2, Ba.sub.1Cu.sub.2O.sub.2, Ba.sub.1O.sub.7U.sub.2, C.sub.4O.sub.4Pb.sub.1, Cd.sub.1In.sub.2O.sub.4, Cl.sub.2O.sub.1Pd.sub.2, Cu.sub.2O.sub.2Sr.sub.1, Al.sub.1Si.sub.1Te.sub.3, B.sub.12Br.sub.12Cs.sub.2, B.sub.12Cl.sub.12Cs.sub.2, B.sub.12Cs.sub.2I.sub.12, Cd.sub.2P.sub.2Se.sub.6, Cs.sub.8O.sub.1Tl.sub.8, Fe.sub.1P.sub.1Se.sub.3, Fe.sub.2P.sub.2Se.sub.6, Mg.sub.2P.sub.2Se.sub.6, Nb.sub.6O.sub.12Ti.sub.2, As.sub.2Hg.sub.2O.sub.6, Ca.sub.1O.sub.6Os.sub.2, O.sub.6Ru.sub.2Sr.sub.1, C.sub.2Cs.sub.2Pd.sub.1, C.sub.2Cs.sub.2Pt.sub.1, C.sub.2K.sub.2Pd.sub.1, C.sub.2K.sub.2Pt.sub.1, C.sub.2Na.sub.2Pd.sub.1, C.sub.2Na.sub.2Pt.sub.1, C.sub.2Pd.sub.1Rb.sub.2, C.sub.2Pt.sub.1Rb.sub.2, H.sub.2B.sub.2Ca.sub.1, Mg.sub.3Nb.sub.6O.sub.11, O.sub.2Pr.sub.2S.sub.1, O.sub.2Pr.sub.2Se.sub.1, B.sub.9Mg.sub.1N.sub.1, Cs.sub.4O.sub.1Tl.sub.2, F.sub.1Gd.sub.1O.sub.1, H.sub.8F.sub.4N.sub.2, Br.sub.9Os.sub.2Rb.sub.3, C.sub.9Fe.sub.2O.sub.9, Mo.sub.1S.sub.1Se.sub.1, Ag.sub.2I.sub.10Tl.sub.6, Ba.sub.5O.sub.10Ru.sub.2, Ca.sub.1Ga.sub.2P.sub.2, Ca.sub.1In.sub.2P.sub.2, Cl.sub.9Cs.sub.3Ru.sub.2, Cl.sub.9Cs.sub.3Ti.sub.2, Cs.sub.3F.sub.9Fe.sub.2, Cs.sub.3I.sub.9Zr.sub.2, In.sub.2P.sub.2Sr.sub.1, K.sub.1Nb.sub.1S.sub.2, K.sub.1Nb.sub.1Se.sub.2, Li.sub.1Nb.sub.1O.sub.2, Li.sub.1Nb.sub.1S.sub.2, Na.sub.1Nb.sub.1O.sub.2, Na.sub.1Nb.sub.1S.sub.2, Na.sub.1Nb.sub.1Se.sub.2, H.sub.12B.sub.12Cs.sub.2, H.sub.12B.sub.12K.sub.2, H.sub.12B.sub.12Rb.sub.2, H.sub.12B.sub.12Tl.sub.2, H.sub.20B.sub.12N.sub.2, As.sub.1Rb.sub.3Se.sub.16, K.sub.3P.sub.1Se.sub.16, H.sub.6Cl.sub.2N.sub.2, F.sub.6O.sub.2Pt.sub.1, Ag.sub.1Cu.sub.4Tb.sub.1, Au.sub.1Sc.sub.1Sn.sub.1, Bi.sub.1Co.sub.1Zr.sub.1, Bi.sub.1Lu.sub.1Ni.sub.1, Bi.sub.1Ni.sub.1Sc.sub.1, Bi.sub.1Ni.sub.1Y.sub.1, Co.sub.1Sb.sub.1Ti.sub.1, Cu.sub.1Rb.sub.1Te.sub.1, Fe.sub.1Nb.sub.1Sb.sub.1, Fe.sub.1Sb.sub.1V.sub.1, Ge.sub.1Pt.sub.1Ti.sub.1, Hf.sub.1Ni.sub.1Sn.sub.1, Hf.sub.1Pd.sub.1Sn.sub.1, Lu.sub.1Ni.sub.1Sb.sub.1, Nb.sub.1Ru.sub.1Sb.sub.1, Ni.sub.1Sb.sub.1Sc.sub.1, Ni.sub.1Sb.sub.1Y.sub.1, Ni.sub.1Sn.sub.1Ti.sub.1, Ni.sub.1Sn.sub.1Zr.sub.1, O.sub.4S.sub.1Zn.sub.1, Pd.sub.1Sb.sub.1Sc.sub.1, Pt.sub.1Sb.sub.1Sc.sub.1, Pt.sub.1Sb.sub.1Y.sub.1, Pt.sub.1Sn.sub.1Ti.sub.1, Rh.sub.1Sb.sub.1Th.sub.1, Ru.sub.1Sb.sub.1Ta.sub.1, Ru.sub.1Sb.sub.1V.sub.1, Ag.sub.6Ge.sub.10P.sub.12, Nb.sub.3Sb.sub.2Te.sub.5, In.sub.3O.sub.8P.sub.2, Fe.sub.2Ge.sub.1Ti.sub.1, H.sub.6B.sub.6Cs.sub.2, H.sub.6B.sub.6K.sub.2, Ag.sub.2Mo.sub.1O.sub.4, Ag.sub.6K.sub.2S.sub.4, Al.sub.1Cs.sub.1O.sub.2, Al.sub.1K.sub.1O.sub.2, Al.sub.1O.sub.2Rb.sub.1, Al.sub.2Cd.sub.1O.sub.4, Al.sub.2Cd.sub.1S.sub.4, Al.sub.2Cd.sub.1Se.sub.4, Al.sub.2Hg.sub.1S.sub.4, Al.sub.2Hg.sub.1Se.sub.4, Al.sub.2O.sub.4Zn.sub.1, Al.sub.2S.sub.4Zn.sub.1, Al.sub.2Se.sub.4Zn.sub.1, As.sub.4He.sub.2O.sub.6, Ba.sub.2Ge.sub.4S.sub.10, Cd.sub.1Ga.sub.2O.sub.4, Cd.sub.1In.sub.2S.sub.4, Cd.sub.1In.sub.2Se.sub.4, Cd.sub.1Lu.sub.2S.sub.4, Cd.sub.1Lu.sub.2Se.sub.4, Cd.sub.1O.sub.4Rh.sub.2, Cd.sub.1S.sub.4Sc.sub.2, Cd.sub.1S.sub.4Y.sub.2, Cd.sub.1Sc.sub.2Se.sub.4, Cd.sub.1Se.sub.4Y.sub.2, Cd.sub.2O.sub.4Si.sub.1, Cd.sub.2O.sub.4Sn.sub.1, Cl.sub.4Li.sub.2Zn.sub.1, Cs.sub.1N.sub.2Nb.sub.1, Ga.sub.2O.sub.4Zn.sub.1, Hg.sub.1In.sub.2S.sub.4, In.sub.2O.sub.4Zn.sub.1, In.sub.2S.sub.4Zn.sub.1, K.sub.8Sb.sub.4Sn.sub.1, Lu.sub.2Mg.sub.1S.sub.4, Lu.sub.2Mg.sub.1Se.sub.4, Mg.sub.1O.sub.4Rh.sub.2, Mg.sub.1Se.sub.4Y.sub.2, O.sub.4Rh.sub.2Zn.sub.1, O.sub.4Sn.sub.1Zn.sub.2, S.sub.4Sc.sub.2Zn.sub.1, S.sub.4Y.sub.2Zn.sub.1, Se.sub.4Y.sub.2Zn.sub.1, Ag.sub.1Bi.sub.1P.sub.2S.sub.6, As.sub.1Cl.sub.3F.sub.6S.sub.3, As.sub.2Cd.sub.1Ge.sub.1K.sub.1, As.sub.2Cd.sub.1Ge.sub.1Rb.sub.1, B.sub.18Cs.sub.4Hg.sub.2Se.sub.18, B.sub.18Hg.sub.2Rb.sub.4Se.sub.18, B.sub.3Cu.sub.1Li.sub.3O.sub.7, Br.sub.10O.sub.1Ta.sub.2Te.sub.4, C.sub.10H.sub.18Cu.sub.2N.sub.2O.sub.10, C.sub.10H.sub.18N.sub.2O.sub.10Rh.sub.2, C.sub.1F.sub.3Hg.sub.1O.sub.3S.sub.1, C.sub.1H.sub.5Eu.sub.1O.sub.7P.sub.1, C.sub.1H.sub.5Nd.sub.1O.sub.7P.sub.1, C.sub.1H.sub.5O.sub.7P.sub.1Pr.sub.1, C.sub.2H.sub.10Ga.sub.2Ge.sub.4N.sub.2O.sub.12, C.sub.2H.sub.26B.sub.12N.sub.8, C.sub.2H.sub.6Ca.sub.1O.sub.7, C.sub.2H.sub.6K.sub.2O.sub.13S.sub.1U.sub.1, C.sub.2H.sub.6O.sub.12U.sub.2, C.sub.2H.sub.8Br.sub.3Cu.sub.1N.sub.1O.sub.1, C.sub.2H.sub.8In.sub.2O.sub.14Se.sub.2, C.sub.3H.sub.7F.sub.1N.sub.1O.sub.5Sn.sub.1, C.sub.4H.sub.11N.sub.1O.sub.10, C.sub.4H.sub.12Ba.sub.2N.sub.2O.sub.10S.sub.2, C.sub.4H.sub.12Fe.sub.1O.sub.6S.sub.4, C.sub.4H.sub.12N.sub.6O.sub.14Se.sub.2U.sub.2, C.sub.4H.sub.14F.sub.3N.sub.1O.sub.2V.sub.1, C.sub.4H.sub.16Cl.sub.6Cu.sub.2N.sub.2, C.sub.4H.sub.7Cs.sub.1O.sub.10, C.sub.4H.sub.7K.sub.1O.sub.10, C.sub.5H.sub.10N.sub.1O.sub.6, C.sub.6F.sub.6Na.sub.4O.sub.12Sn.sub.4, C.sub.6H.sub.12Fe.sub.1N.sub.8O.sub.8, C.sub.6H.sub.4Na.sub.4Np.sub.2O.sub.18, C.sub.8H.sub.20N.sub.6O.sub.18S.sub.2U.sub.2, C.sub.8H.sub.28F.sub.6N.sub.2O.sub.4V.sub.2, C.sub.8H.sub.4K.sub.6N.sub.8O.sub.6Os.sub.2S.sub.2, C.sub.8I.sub.2Mo.sub.2O.sub.8, Cl.sub.10Mo.sub.2N.sub.4S.sub.4, Cl.sub.10Nb.sub.2O.sub.1Te.sub.4, Cl.sub.2N.sub.4O.sub.12S.sub.10, Cs.sub.2P.sub.2Se.sub.6Zn.sub.1, Cu.sub.1O.sub.9Se.sub.3Sr.sub.2, Cu.sub.2Na.sub.2O.sub.11Si.sub.4, F.sub.2N.sub.2O.sub.4Xe.sub.1, F.sub.2O.sub.7Te.sub.2V.sub.2, H.sub.10F.sub.8In.sub.2N.sub.2O.sub.2, H.sub.12I.sub.8Mg.sub.1O.sub.6, H.sub.12Mg.sub.1O.sub.12S.sub.2, H.sub.12O.sub.12S.sub.2Zn.sub.1, H.sub.14Hg.sub.2O.sub.14Te.sub.2, H.sub.14N.sub.4O.sub.8S.sub.2, H.sub.16B.sub.12Na.sub.2O.sub.14S.sub.6, H.sub.18O.sub.12Se.sub.4Sn.sub.1Sr.sub.2, H.sub.24Li.sub.2N.sub.8Te.sub.2, H.sub.26B.sub.20K.sub.4O.sub.4, H.sub.32N.sub.14Se.sub.6Sn.sub.2, H.sub.34Cl.sub.4Cr.sub.2N.sub.8O.sub.6, H.sub.4Cu.sub.2Na.sub.2O.sub.13Si.sub.4, H.sub.6B.sub.2F.sub.8N.sub.2, H.sub.6Cs.sub.2O.sub.12P.sub.4, H.sub.6F.sub.22N.sub.2Sb.sub.4, H.sub.6O.sub.12P.sub.4Rb.sub.2, H.sub.8Na.sub.6O.sub.14P.sub.4, K.sub.4Mn.sub.1Mo.sub.3O.sub.12, K.sub.4N.sub.2O.sub.14S.sub.4, Lu.sub.1Na.sub.1P.sub.2S.sub.6, Na.sub.1P.sub.2S.sub.6Tb.sub.1, Na.sub.1P.sub.2S.sub.6Y.sub.1, P.sub.2Rb.sub.2Se.sub.6Zn.sub.1, C.sub.4H.sub.3Cs.sub.1O.sub.14U.sub.2, C.sub.4H.sub.5K.sub.1O.sub.15U.sub.2, C.sub.4H.sub.5O.sub.15Rb.sub.1U.sub.2, Cs.sub.2Cu.sub.2O.sub.19Si.sub.8, Cu.sub.2Ge.sub.4O.sub.13Sc.sub.2, K.sub.3P.sub.5Ru.sub.1Se.sub.10, Ag.sub.2Br.sub.6Hg.sub.7P.sub.8, Ag.sub.2Hg.sub.7I.sub.6P.sub.8, Au.sub.2K.sub.2P.sub.2Se.sub.6, Au.sub.2La.sub.4O.sub.2P.sub.4, Au.sub.2P.sub.2Se.sub.6Tl.sub.2, C.sub.2Cl.sub.2O.sub.4Pb.sub.2, C.sub.2H.sub.2Ag.sub.1O.sub.9S.sub.1Tb.sub.1, C.sub.2H.sub.4Ca.sub.2Cl.sub.2O.sub.6, C.sub.2H.sub.6N.sub.2Rb.sub.2, C.sub.4H.sub.6B.sub.12Cs.sub.2I.sub.12N.sub.2, C.sub.4H.sub.8N.sub.2O.sub.4, H.sub.20B.sub.12Li.sub.2O.sub.4, In.sub.1K.sub.2P.sub.2S.sub.7, La.sub.2P.sub.4S.sub.14Tl.sub.4, C.sub.8H.sub.12Ag.sub.2N.sub.4O.sub.4, Ag.sub.1As.sub.1K.sub.1S.sub.2, Ag.sub.1Cu.sub.1O.sub.4P.sub.1, Ag.sub.2Cs.sub.2P.sub.2Se.sub.6, Ag.sub.2O.sub.8P.sub.2V.sub.1, Ag.sub.2P.sub.2Se.sub.6Tl.sub.2, Al.sub.1As.sub.1Cu.sub.1O.sub.5, Al.sub.1Cu.sub.1O.sub.8P.sub.2Rb.sub.1, Al.sub.2Br.sub.6N.sub.2S.sub.2, Al.sub.2Br.sub.6N.sub.2Se.sub.2, As.sub.1F.sub.6N.sub.2S.sub.3, Ba.sub.1La.sub.1Sb.sub.2Se.sub.6, Ba.sub.1Mo.sub.2O.sub.16P.sub.4, C.sub.10F.sub.4Mn.sub.2O.sub.8, C.sub.12Bi.sub.2O.sub.12Ru.sub.4, C.sub.1O.sub.6P.sub.1Sn.sub.2, C.sub.2As.sub.2F.sub.12N.sub.2Te.sub.4, C.sub.2Cl.sub.10N.sub.2Sb.sub.2, C.sub.2Cu.sub.1O.sub.6Tl.sub.2, C.sub.2F.sub.6N.sub.4O.sub.6S.sub.4Se.sub.4, C.sub.2F.sub.6N.sub.4O.sub.6S.sub.8, C.sub.2H.sub.1Cs.sub.1O.sub.4, C.sub.2H.sub.2Na.sub.2O.sub.6, C.sub.2H.sub.4Cs.sub.2O.sub.6, C.sub.2H.sub.4F.sub.6O.sub.6S.sub.2Si.sub.2, C.sub.2H.sub.4Fe.sub.4O.sub.14P.sub.2, C.sub.2H.sub.4O.sub.14P.sub.2Zn.sub.4, C.sub.2H.sub.6K.sub.2N.sub.2, C.sub.2H.sub.6K.sub.4N.sub.8O.sub.10, C.sub.3H.sub.2Na.sub.1O.sub.7Zn.sub.1, C.sub.3H.sub.3Ba.sub.1O.sub.7, C.sub.4H.sub.12Cl.sub.8Nb.sub.2S.sub.2, C.sub.4H.sub.18B.sub.2P.sub.2, C.sub.4H.sub.2Fe.sub.2O.sub.6, C.sub.4H.sub.2O.sub.8Tl.sub.2, C.sub.6H.sub.10O.sub.6Sn.sub.1, C.sub.6H.sub.4Mg.sub.2Na.sub.2O.sub.14, C.sub.6O.sub.16Rb.sub.2U.sub.2, Cd.sub.1Mo.sub.1O.sub.6P.sub.1, Cd.sub.1P.sub.2Rb.sub.2Se.sub.6, Cl.sub.12Mo.sub.2O.sub.4P.sub.2, Cs.sub.2O.sub.12P.sub.2U.sub.2, Cs.sub.4O.sub.2S.sub.10V.sub.2, Cu.sub.1P.sub.1Se.sub.3Tl.sub.1, Cu.sub.2P.sub.2S.sub.6Tl.sub.2, Cu.sub.2P.sub.2Se.sub.6Tl.sub.2, F.sub.2N.sub.4O.sub.6S.sub.8, Fe.sub.1I.sub.1N.sub.2O.sub.2, Fe.sub.1K.sub.2P.sub.2S.sub.6, Fe.sub.1K.sub.2P.sub.2Se.sub.6, Fe.sub.2K.sub.1O.sub.8P.sub.2, H.sub.10Br.sub.2N.sub.2O.sub.2, H.sub.10N.sub.2O.sub.8P.sub.2, H.sub.12N.sub.4O.sub.4P.sub.2, H.sub.12O.sub.6P.sub.2Rb.sub.4S.sub.6, H.sub.14Ni.sub.1O.sub.12P.sub.2, H.sub.2Hg.sub.6N.sub.4O.sub.14, H.sub.2O.sub.6P.sub.2Tl.sub.2, H.sub.3K.sub.1O.sub.6P.sub.2, H.sub.5O.sub.7P.sub.1V.sub.1, H.sub.6Cs.sub.2N.sub.2P.sub.4, H.sub.8K.sub.4O.sub.4P.sub.2S.sub.6, H.sub.8Li.sub.4O.sub.12P.sub.2, Hg.sub.1K.sub.2P.sub.2Se.sub.6, K.sub.2Mg.sub.1P.sub.2Se.sub.6, K.sub.2P.sub.2Se.sub.6Zn.sub.1, Li.sub.2O.sub.8P.sub.2V.sub.1, Mo.sub.2O.sub.16P.sub.4Sr.sub.1, Na.sub.2O.sub.8P.sub.2V.sub.1, Ni.sub.1O.sub.10P.sub.2V.sub.2, Ag.sub.3P.sub.4S.sub.12Tl.sub.5, Ba.sub.1In.sub.2O.sub.14P.sub.4, Ba.sub.1La.sub.2O.sub.14Te.sub.5, Ba.sub.1O.sub.8P.sub.2Th.sub.1, Ba.sub.2Gd.sub.2O.sub.13Si.sub.4, Bi.sub.2Cl.sub.8Hg.sub.3Te.sub.2, C.sub.1Ag.sub.2Cl.sub.1N.sub.1O.sub.4S.sub.1, C.sub.2Ag.sub.1N.sub.2Na.sub.1, C.sub.2F.sub.6Na.sub.2O.sub.4Sb.sub.2, C.sub.2H.sub.2Cs.sub.2O.sub.5, C.sub.2H.sub.2K.sub.2O.sub.5, C.sub.2H.sub.2K.sub.2O.sub.6, C.sub.2H.sub.2O.sub.5Rb.sub.2, C.sub.2H.sub.4B.sub.2O.sub.2, C.sub.2H.sub.6Fe.sub.1N.sub.2O.sub.4, C.sub.2H.sub.8Cl.sub.3Cu.sub.1N.sub.1, C.sub.2H.sub.8I.sub.2N.sub.4S.sub.2, C.sub.2N.sub.2O.sub.6S.sub.2, C.sub.4H.sub.12Mg.sub.1O.sub.6S.sub.4, C.sub.4H.sub.16F.sub.4Mn.sub.1N.sub.1O.sub.2, C.sub.4H.sub.4O.sub.10Th.sub.1, C.sub.4H.sub.6Ba.sub.1O.sub.10, C.sub.4H.sub.6Cd.sub.1O.sub.2S.sub.4, C.sub.4H.sub.6Na.sub.2O.sub.7, C.sub.4H.sub.6O.sub.7Sr.sub.1, C.sub.4H.sub.8Cd.sub.1Cl.sub.2N.sub.2, C.sub.4H.sub.8O.sub.12Th.sub.1, C.sub.4H.sub.8O.sub.8Zn.sub.1, C.sub.6H.sub.6Ag.sub.3Co.sub.1N.sub.8, Cd.sub.3Na.sub.2O.sub.10Si.sub.3, Cl.sub.3Na.sub.2O.sub.12Te.sub.4Y.sub.3, Cu.sub.1Mo.sub.2O.sub.8Sb.sub.1, Eu.sub.1O.sub.8Rb.sub.1S.sub.2, F.sub.9K.sub.5O.sub.4U.sub.2, H.sub.14Na.sub.3Np.sub.1O.sub.12, H.sub.2F.sub.4K.sub.1Mn.sub.1O.sub.1, H.sub.2F.sub.4Mn.sub.1O.sub.1Rb.sub.1, H.sub.4Ca.sub.2O.sub.13P.sub.3V.sub.1, H.sub.4F.sub.4O.sub.2Rb.sub.1V.sub.1, H.sub.8Ni.sub.1O.sub.10V.sub.2, Hg.sub.1In.sub.1S.sub.3Tl.sub.1, Hg.sub.1O.sub.7P.sub.2Pd.sub.1, K.sub.2Rb.sub.2Re.sub.6S.sub.13, K.sub.4Mo.sub.8O.sub.52P.sub.12, O.sub.14Sr.sub.3Te.sub.4U.sub.1, As.sub.2Cl.sub.3Hg.sub.3Tl.sub.1, Br.sub.3Hg.sub.3Sb.sub.2Tl.sub.1, H.sub.8Cs.sub.4O.sub.4P.sub.2Se.sub.6, H.sub.8O.sub.4P.sub.2Rb.sub.4Se.sub.6, La.sub.2O.sub.8S.sub.2Ta.sub.3, Cl.sub.1N.sub.2S.sub.1Se.sub.2, Cr.sub.2Li.sub.4N.sub.6Sr.sub.2, H.sub.6F.sub.6N.sub.2Si.sub.1, H.sub.6F.sub.1N.sub.1O.sub.2, H.sub.6F.sub.5N.sub.2Sb.sub.1, As.sub.6Ba.sub.4Cd.sub.3Li.sub.2, Ba.sub.4Cd.sub.3Li.sub.2P.sub.6, C.sub.4H.sub.12Cl.sub.8Nb.sub.2Se.sub.2, H.sub.8K.sub.4O.sub.4P.sub.2Se.sub.6, Ba.sub.1O.sub.7Sr.sub.1Ta.sub.2, Br.sub.9Cs.sub.5Nb.sub.2S.sub.4, Br.sub.9Nb.sub.2S.sub.4Tl.sub.5, Cl.sub.8Cs.sub.5I.sub.1S.sub.4U.sub.2, Cl.sub.9Cs.sub.5Nb.sub.2S.sub.4, Cl.sub.9Nb.sub.2S.sub.4Tl.sub.5, F.sub.1K.sub.1Nb.sub.2O.sub.6Sr.sub.1, H.sub.1La.sub.2Li.sub.1O.sub.3, La.sub.1O.sub.11Sr.sub.2Ta.sub.3, C.sub.4N.sub.4Pt.sub.1Rb.sub.2, Cs.sub.1F.sub.3Mo.sub.1O.sub.2, H.sub.4Al.sub.1F.sub.5O.sub.2Zn.sub.1, K.sub.1Na.sub.2O.sub.15Si.sub.6Y.sub.1, La.sub.1Nb.sub.2O.sub.7Rb.sub.1, Li.sub.2O.sub.7P.sub.2Pd.sub.1, O.sub.14P.sub.4Pd.sub.3Tl.sub.2, C.sub.4Cd.sub.1Hg.sub.1N.sub.4S.sub.4, C.sub.4Cd.sub.1Hg.sub.1N.sub.4Se.sub.4, C.sub.4Cd.sub.1N.sub.4S.sub.4Zn.sub.1, C.sub.4Cd.sub.1N.sub.4Se.sub.4Zn.sub.1, C.sub.4Co.sub.1Cs.sub.1O.sub.4, C.sub.4Hg.sub.1N.sub.4S.sub.4Zn.sub.1, C.sub.4Hg.sub.1N.sub.4Se.sub.4Zn.sub.1, Cl.sub.1K.sub.2Na.sub.1O.sub.6S.sub.2, Ba.sub.1O.sub.7Si.sub.2V.sub.1, C.sub.4H.sub.8In.sub.1K.sub.1O.sub.12, C.sub.4H.sub.8K.sub.1Lu.sub.1O.sub.12, C.sub.8K.sub.1O.sub.8Y.sub.1, Cl.sub.2K.sub.5Na.sub.1O.sub.12S.sub.4, Br.sub.4Cs.sub.2I.sub.2Pd.sub.1, Br.sub.4I.sub.2Pd.sub.1Rb.sub.2, Cl.sub.4Cs.sub.2I.sub.2Pd.sub.1, Ba.sub.4Bi.sub.3K.sub.1O.sub.1, Ba.sub.4K.sub.1O.sub.1Sb.sub.3, Ba.sub.4O.sub.1Rb.sub.1Sb.sub.3, As.sub.2Cs.sub.2O.sub.8Th.sub.1, Ce.sub.1K.sub.2O.sub.8P.sub.2, Cl.sub.2Cs.sub.2N.sub.2O.sub.6Pb.sub.1, As.sub.1K.sub.1Ni.sub.1O.sub.4, As.sub.1Na.sub.1Ni.sub.1O.sub.4, As.sub.2Ba.sub.1Ni.sub.2O.sub.8, Ba.sub.1Ni.sub.2O.sub.8P.sub.2, C.sub.4H.sub.4Cd.sub.1O.sub.6, Ca.sub.2Li.sub.6Mn.sub.2N.sub.6, Br.sub.15Cs.sub.2La.sub.1O.sub.3Ta.sub.6, Cl.sub.18Cs.sub.1Lu.sub.1Nb.sub.6, C.sub.8H.sub.24Cl.sub.18N.sub.2Nb.sub.6, Ce.sub.1O.sub.1P.sub.1Zn.sub.1, H.sub.12B.sub.12Br.sub.1Cs.sub.3, H.sub.12B.sub.12Br.sub.1K.sub.3, H.sub.12B.sub.12Br.sub.1Rb.sub.3, H.sub.12B.sub.12Cl.sub.1Cs.sub.3, H.sub.12B.sub.12Cl.sub.1Rb.sub.3, H.sub.12B.sub.12Cs.sub.3I.sub.1, H.sub.12B.sub.12I.sub.1K.sub.3, H.sub.12B.sub.12I.sub.1Rb.sub.3, As.sub.2Ba.sub.6Na.sub.2O.sub.17Ru.sub.2, Ba.sub.5Br.sub.2O.sub.9Ru.sub.2, Ba.sub.6Na.sub.2O.sub.17Ru.sub.2V.sub.2, C.sub.4Fe.sub.2Na.sub.6O.sub.16S.sub.1, Cs.sub.3Mo.sub.4O.sub.16P.sub.3, Ag.sub.3Ge.sub.3P.sub.6Sn.sub.2, Ag.sub.3P.sub.6Si.sub.3Sn.sub.2, C.sub.4Cd.sub.1K.sub.2N.sub.4, C.sub.4Hg.sub.1K.sub.2N.sub.4 and C.sub.4K.sub.2N.sub.4Zn.sub.1.

[0056] In one aspect of the invention, a method is provided for controllably making catalysts with the active surface site(s), which method comprises [0057] selecting a potentially catalytic active compound either according to the above selection process or from the above Table 1, [0058] synthesizing a crystal of this potentially catalytic active compound either so that it is grown in a predefined crystallographic direction (characterized by its h,k,l-indices) which exposes the metallic surface state; or cutting the crystal in a predefined crystallographic direction (characterized by its h,k,l-indices), so that the metallic surface state is exposed,

[0059] wherein the predefined crystallographic direction is the direction of the normal vector (h,k,l) of the surface plane f(x, y, z)=0 which cuts through the position of obstructed WCCs, but stays away from the atoms' positions, condition which is fulfilled when:

[00004] ${\begin{matrix} (h, k, l) .Math. (x - X_{j}, y - Y_{j}, - Z_{j}) = 0, \\ (h, k, l) .Math. (x - x_{i}, y - y_{i}, z - z_{i}) \neq 0, \\ h, k, l ϵ Z \end{matrix}$

[0060] with the obstructed WCCs localized at WP.sub.OAI={X.sub.j, Y.sub.j, Z.sub.j|RSI.sub.j≠0, j.Math.occupied positions} and atoms occupying WP.sub.occ={x.sub.i, y.sub.i, z.sub.i|i∈occupied positions}.

[0061] A further aspect of the invention comprises a method for converting [0062] a compound, which [0063] either has been selected with the above method or [0064] has been selected from Table 1, [0065] and which compound does not provide a surface with a metal surface state

[0066] into a compound which provides a surface with a metal surface state, by cutting or growing a crystal of this compound in a predefined crystallographic direction thereby revealing metal surface states, wherein the predefined crystallographic direction is determined as described above.

[0067] Moreover, the present invention comprises a catalyst selected from the compounds listed in Table 1 [0068] wherein a crystal of the selected compound is grown in a predefined crystallographic direction (characterized by its h,k,l-indices); or is cut in a predefined crystallographic direction (characterized by its h,k,l-indices), [0069] wherein the predefined crystallographic direction is the direction of the normal vector (h,k,l) of the surface plane f(x, y, z)=0 which cuts through the position of obstructed WCCs, but stays away from the atoms' positions, condition which is fulfilled when:

[00005] ${\begin{matrix} (h, k, l) .Math. (x - X_{j}, y - Y_{j}, - Z_{j}) = 0, \\ (h, k, l) .Math. (x - x_{i}, y - y_{i}, z - z_{i}) \neq 0, \\ h, k, l ϵ Z \end{matrix}$

[0070] with the obstructed WCCs localized at WP.sub.OAI={X.sub.j, Y.sub.j, Z.sub.j|RSI.sub.j≠0, j∈occupied positions} and atoms occupying WP.sub.occ={x.sub.i, y.sub.i, z.sub.i|i∈occupied positions}.

Method of Making the Compounds

[0071] The compounds of the present invention can e.g. be grown out of a stoichiometric mixture of the elements of the compound. The elements may be mixed together and then heated, preferably to a temperature of about 300° C., preferably 200° C., most preferred 100° C. above the melting point of the lowest melting element over a period of 1 h to 10 h, preferably 2 h to 8 h, more preferably 3 h to 7 h and then kept for 5 h to 50 h, preferably 10 h to 30 h, more preferably about 20 h at that temperature. Preferably, the mixture is placed in an inert crucible for heating, e.g. an alumina crucible which preferably is sealed, e.g. in a quartz tube under a partial pressure of an inert gas, e.g. Ar. Thereafter the mixture is slowly cooled to a temperature of about 450° C., preferably 400° C., more preferably 350° C. over a period of 40 h to 90 h, preferably 50 h to 80 h, more preferably 55 h to 65 h.

[0072] In an alternative method first, a polycrystalline ingot is prepared, e.g. using induction or arc melting technique with the stoichiometric mixture of the elements. The polycrystalline ingot is then crushed into microcrystalline powders and filled preferably in an alumina tube with a cone shape end and then fully sealed in a tantalum tube. The tube is then heated up to a temperature higher than the melting point of the compound to obtain a fully molten state and then slowly cooled to about 650° C. and then to room temperature.

[0073] In general, the compounds are manufactured so that they grow in a predefined crystallographic direction (characterized by its (h,k,l)-indices) which exposes the metallic surface state. It is known that the morphology of the crystal is closely related to the surface energy of each crystal surface. In the crystal growth process, the crystal surface with high surface energy has a faster growth rate than the lower one. Thus, according to the thermodynamic equilibrium theory, those surfaces with high surface energy will disappear while the surfaces with the lowest total energy will survive (M. Khan, et al. CrystEngComm, 2013, 15, 2631). Thus, one can design a catalyst if the metallic surface states coincide with the surface with the lowest surface energy. If the metallic surface states are located at the crystal surface with high surface energy, it is possible to control the surface energy by using additives. The additives, such as polyvinylpyrrolidone, sodium dodecyl sulfate, and hypophosphorous acid, can bind to a specific crystallographic surface and decrease the surface energy. This will reduce the crystal growth rate and alter morphology, exposing the desired crystal surface with metallic surface states (J. P. van der Eerden, et al. Electrochim. Acta, 1986, 31, 1007; A. Ballabh, et al, Cryst. Growth Des., 2006, 6, 1591). A crystal can also be “cut” in a predefined crystallographic direction (characterized by its h,k,l-indices), so that the metallic surface state is exposed. For catalysts in the form of a bulk crystal, the crystal structure and crystal orientation can be determined by single-crystal X-ray diffraction. After the orientation has being determined, one can cut the crystal along a specified direction and expose the desired crystal surface.

TABLE-US-00003 OAI Table Number of valence Space ICSD- Chemical Indirect electrons per unit Occupied group No. formula gap(eV) cell Obstructed RSI list Wyckoff positions 2 96544 Ba.sub.1P.sub.8 0.765 100 δ1(a) = 1.0, δ1(b) = 1.0 {i} 2 203216 I.sub.4P.sub.2 1.556 38 δ1(d) = 1.0 {i} 2 36293 I.sub.4P.sub.2 1.097 38 δ1(h) = 1.0 {i} 2 426518 I.sub.4P.sub.2 1.604 38 δ1(f) = 1.0 {i} 2 100786 Mn.sub.1P.sub.4 0.383 54 δ1(c) = 1.0, δ1(d) = 1.0, δ1(h) = 1.0 {i} 2 16416 Mn.sub.1P.sub.4 0.428 162 δ1(a) = 1.0, δ1(c) = 1.0, δ1(g) = 1.0 {i} 2 62538 Nb.sub.2Se.sub.9 0.629 160 δ1(a) = 1.0, δ1(h) = 1.0 {i} 2 645386 Nb.sub.2Se.sub.9 0.669 160 δ1(a) = 1.0, δ1(h) = 1.0 {i} 2 8179 Nb.sub.2Se.sub.9 0.684 160 δ1(a) = 1.0, δ1(h) = 1.0 {i} 2 647710 Os.sub.1P.sub.4 1.396 84 δ1(e) = 1.0, δ1(f) = 1.0, δ1(h) = 1.0 {a, i} 2 62420 P.sub.3Ru.sub.1 1.12 92 δ1(b) = 1.0, δ1(d) = 1.0, {i} δ1(e) = 1.0, δ1(g) = 1.0 2 2492 P.sub.4Ru.sub.1 1.287 84 δ1(e) = 1.0, δ1(f) = 1.0, δ1(h) = 1.0 {a, i} 2 24808 P.sub.5Re.sub.2 0.436 156 δ1(a) = 1.0, δ1(b) = 1.0, {i} δ1(c) = 1.0, δ1(d) = 1.0, δ1(e) = 1.0, δ1(h) = 1.0 2 650077 Re.sub.1S.sub.2 0.806 76 δ1(g) = 1.0, δ1(h) = 1.0 {i} 2 75459 Re.sub.1S.sub.2 1.122 76 δ1(c) = 1.0, δ1(e) = 1.0 {i} 2 26256 Re.sub.1Se.sub.2 0.677 76 δ1(g) = 1.0, δ1(h) = 1.0 {i} 2 650094 Re.sub.1Se.sub.2 0.674 76 δ1(g) = 1.0, δ1(h) = 1.0 {i} 2 66658 Re.sub.1Se.sub.2 0.677 76 δ1(g) = 1.0, δ1(h) = 1.0 {i} 2 81813 Re.sub.1Se.sub.2 0.969 76 δ1(g) = 1.0, δ1(h) = 1.0 {i} 2 81816 S.sub.2Tc.sub.1 0.933 76 δ1(g) = 1.0, δ1(h) = 1.0 {i} 11 409187 Lu.sub.1P.sub.5 0.138 100 δ1(b) = 1.0, δ1(d) = 1.0 {f, e} 11 409188 P.sub.5Y.sub.1 0.104 72 δ1(b) = 1.0, δ1(d) = 1.0 {f, e} 12 610598 As.sub.1Ge.sub.1 0.301 54 δ1(c) = −1.0 {i} 12 153457 As.sub.1Si.sub.1 0.944 54 δ1(b) = −1.0 {i} 12 43227 As.sub.1Si.sub.1 0.944 54 δ1(c) = −1.0 {i} 12 611404 As.sub.1Si.sub.1 0.495 54 δ1(c) = −1.0 {i} 12 673902 As.sub.1Si.sub.1 1.05 54 δ1(b) = −1.0 {i} 12 23618 Ba.sub.1P.sub.3 0.59 50 δ1(b) = −1.0 {j, i} 12 426771 Ba.sub.1P.sub.3 0.521 50 δ1(c) = −1.0 {j, i} 12 194722 Bi.sub.1S.sub.2 0.825 68 δ1(a) = −1.0, δ1(c) = −1.0 {i} 12 194720 Bi.sub.1Se.sub.2 0.47 68 δ1(a) = −1.0, δ1(c) = −1.0 {i} 12 239640 Br.sub.4Nb.sub.1 0.851 82 δ1(a) = −1.0 {j, i, g} 12 239354 Br6Si.sub.2 4.096 50 δ1(d) = −1.0 {j, i} 12 411879 C.sub.22F.sub.14 2.41 186 δ1(b) = −1.0 {i, i} 12 411880 C.sub.22F.sub.14 2.415 186 δ1(c) = −1.0 {j, i} 12 252725 C.sub.2Ca.sub.1 1.997 20 δ1(a) = 1.0, δ1(d) = 1.0 {i} 12 252731 C.sub.2Ca.sub.1 1.8 20 δ1(a) = 1.0, δ1(d) = 1.0 {i} 12 252740 C.sub.2Ca.sub.1 1.712 20 δ1(a) = 1.0, δ1(d) = 1.0 {i} 12 252743 C.sub.2Ca.sub.1 0.36 20 δ1(a) = 1.0, δ1(d) = 1.0 {i} 12 252746 C.sub.2Ca.sub.1 2.183 20 δ1(a) = 1.0, δ1(d) = 1.0 {i} 12 252749 C.sub.2Ca.sub.1 2.779 20 δ1(b) = 1.0, δ1(c) = 1.0 {i} 12 252752 C.sub.2Ca.sub.1 2.043 20 δ1(a) = 1.0, δ1(d) = 1.0 {i} 12 252755 C.sub.2Ca.sub.1 2.695 20 δ1(a) = 1.0, δ1(d) = 1.0 {i} 12 252758 C.sub.2Ca.sub.1 1.746 20 δ1(a) = 1.0, δ1(d) = 1.0 {i} 12 252761 C.sub.2Ca.sub.1 1.896 20 δ1(a) = 1.0, δ1(d) = 1.0 {i} 12 252764 C.sub.2Ca.sub.1 2.176 20 δ1(a) = 1.0, δ1(d) = 1.0 {i} 12 252767 C.sub.2Ca.sub.1 2.13 20 δ1(a) = 1.0, δ1(d) = 1.0 {i} 12 252770 C.sub.2Ca.sub.1 1.938 20 δ1(a) = 1.0, δ1(d) = 1.0 {i} 12 252773 C.sub.2Ca.sub.1 2.058 20 δ1(b) = 1.0, δ1(c) = 1.0 {i} 12 252776 C.sub.2Ca.sub.1 2.343 20 δ1(b) = 1.0, δ1(c) = 1.0 {i} 12 290833 C.sub.2Ca.sub.1 2.32 20 δ1(b) = 1.0, δ1(c) = 1.0 {i} 12 411190 C.sub.2Ca.sub.1 2.756 20 δ1(b) = 1.0, δ1(c) = 1.0 {i} 12 54185 C.sub.2Ca.sub.1 1.159 20 δ1(b) = 1.0, δ1(c) = 1.0 {i} 12 54188 C.sub.2Ca.sub.1 1.624 20 δ1(b) = 1.0, δ1(c) = 1.0 {i} 12 672970 C.sub.2Ca.sub.1 2.308 20 δ1(b) = 1.0, δ1(c) = 1.0 {i} 12 94385 C.sub.2Ca.sub.1 2.159 20 δ1(b) = 1.0, δ1(c) = 1.0 {i} 12 74854 Ca.sub.5P.sub.8 1.181 50 δ1(a) = −1.0 {j, h, d, i, g} 12 26108 Cl.sub.3Mo.sub.1 0.046 54 δ1(a) = 1.0 {j, i, g} 12 83878 Cl.sub.3Mo.sub.1 0.057 54 δ1(a) = 1.0 {j, i, g} 12 23337 Cl.sub.3Y.sub.2 0.73 86 δ1(a) = −1.0 {i} 12 1010 Cl.sub.4Nb.sub.1 0.851 82 δ1(a) = −1.0 {j, i, g} 12 402406 Cl.sub.4Ta.sub.1 1.043 66 δ1(b) = −1.0 {j, i, g} 12 34000 Cs.sub.5Te.sub.3 0.236 126 δ1(b) = −1.0 {h, i, g} 12 153456 Ga.sub.1Te.sub.1 0.881 54 δ1(b) = −1.0 {i} 12 635512 Ga.sub.1Te.sub.1 0.847 54 δ1(b) = −1.0 {i} 12 8249 Ga.sub.1Te.sub.1 0.884 54 δ1(d) = −1.0 {i} 12 427243 Ge.sub.1P.sub.1 0.484 54 δ1(a) = −1.0 {i} 12 637492 Ge.sub.1P.sub.1 0.489 54 δ1(c) = −1.0 {i} 12 48214 Hg.sub.1O.sub.2 0.319 24 δ1(d) = −1.0 {a, i} 12 655816 Hg.sub.1O.sub.2 0.077 24 δ1(d) = −1.0 {a, i} 12 672535 In.sub.1Se.sub.1 0.85 18 δ1(d) = −1.0 {i} 12 71083 In.sub.1Se.sub.1 1.07 18 δ1(d) = −1.0 {i} 12 80945 K.sub.1Sb.sub.2 0.182 38 δ1(a) = −1.0 {i} 12 673935 Na.sub.1P.sub.2 0.807 22 δ1(a) = −1.0 {i} 12 671296 O.sub.2Rb.sub.2 2.848 30 δ1(d) = −1.0 {i} 12 23628 P.sub.3Sr.sub.1 0.355 100 δ1(f) = 1.0 {j, i} 12 419402 Rb.sub.1Sb.sub.2 0.313 38 δ1(a) = −1.0 {i} 14 35283 Ag.sub.1P.sub.2 0.622 84 δ1(c) = 1.0 {e} 14 605629 Ag.sub.1P.sub.2 0.536 84 δ1(d) = 1.0 {e} 14 174220 As.sub.2Co.sub.1 0.036 76 δ1(d) = 1.0 {e} 14 30242 As.sub.2Co.sub.1 0.077 76 δ1(d) = 1.0 {e} 14 42613 As.sub.2Co.sub.1 0.054 76 δ1(d) = 1.0 {e} 14 610026 As.sub.2Co.sub.1 0.051 76 δ1(c) = 1.0 {e} 14 610039 As.sub.2Co.sub.1 0.098 76 δ1(d) = 1.0 {e} 14 42573 As.sub.2Ir.sub.1 0.721 76 δ1(d) = 1.0 {e} 14 610734 As.sub.2Ir.sub.1 0.687 76 δ1(c) = 1.0 {e} 14 610739 As.sub.2Ir.sub.1 0.736 76 δ1(d) = 1.0 {e} 14 610742 As.sub.2Ir.sub.1 0.72 76 δ1(c) = 1.0 {e} 14 610769 As.sub.2La.sub.1 0.172 84 δ1(b) = 1.0 {e} 14 42616 As.sub.2Rh.sub.1 0.374 76 δ1(d) = 1.0 {e} 14 611263 As.sub.2Rh.sub.1 0.338 76 δ1(d) = 1.0 {e} 14 611271 As.sub.2Rh.sub.1 0.44 76 δ1(d) = 1.0 {e} 14 611275 As.sub.2Rh.sub.1 0.375 76 δ1(d) = 1.0 {e} 14 657340 As.sub.2Rh.sub.1 0.416 76 δ1(d) = 1.0 {e} 14 673552 Au.sub.1O.sub.1 0.396 68 δ1(d) = 1.0 {e} 14 27867 B.sub.2F.sub.4 4.979 68 δ1(c) = 1.0 {e} 14 425100 B.sub.4Mn.sub.1 0.011 76 δ1(c) = 1.0 {e} 14 426770 Ba.sub.1P.sub.3 1.36 100 δ1(a) = 1.0 {e} 14 671326 Ca.sub.1O.sub.2 2.296 56 δ1(a) = 1.0, δ1(b) = 1.0 {e} 14 25605 Cd.sub.1P.sub.4 0.343 64 δ1(d) = 1.0 {a, e} 14 620212 Cd.sub.1P.sub.4 0.343 64 δ1(d) = 1.0 {a, e} 14 38316 Co.sub.1P.sub.2 0.344 76 δ1(d) = 1.0 {e} 14 47182 Cs.sub.1Te.sub.4 0.478 132 δ1(a) = 1.0 {e} 14 44621 Cs.sub.2I.sub.8 1.438 148 δ1(b) = 1.0 {e} 14 5413 Cs.sub.2I.sub.8 1.371 148 δ1(b) = 1.0 {e} 14 35282 Cu.sub.1P.sub.2 0.847 84 δ1(d) = 1.0 {e} 14 628625 Cu.sub.1P.sub.2 0.842 84 δ1(d) = 1.0 {e} 14 653601 Cu.sub.1P.sub.2 0.839 84 δ1(b) = 1.0 {e} 14 2413 Fe.sub.1P.sub.4 0.896 168 δ1(d) = 1.0 {a, e} 14 87501 Fe.sub.1S.sub.1 0.002 168 δ1(a) = 1.0, δ1(d) = 1.0 {e} 14 89381 Fe.sub.1S.sub.1 0.002 168 δ1(a) = 1.0, δ1(d) = 1.0 {e} 14 24822 Ga.sub.2I.sub.3 2.252 108 δ1(a) = 1.0 {e} 14 426345 Hg.sub.2N6 2.41 108 δ1(d) = 1.0 {e} 14 98661 Hg.sub.2N6 2.479 108 δ1(b) = 1.0 {e} 14 160623 Ir.sub.1N.sub.2 0.479 76 δ1(a) = 1.0 {e} 14 240755 Ir.sub.1N.sub.2 0.328 76 δ1(a) = 1.0 {e} 14 174222 Ir.sub.1P.sub.2 0.722 76 δ1(c) = 1.0 {e} 14 174229 Ir.sub.1P.sub.2 0.701 76 δ1(c) = 1.0 {e} 14 174230 Ir.sub.1P.sub.2 0.688 76 δ1(d) = 1.0 {e} 14 174232 Ir.sub.1P.sub.2 0.681 76 δ1(d) = 1.0 {e} 14 174233 Ir.sub.1P.sub.2 0.738 76 δ1(c) = 1.0 {e} 14 174234 Ir.sub.1P.sub.2 0.701 76 δ1(d) = 1.0 {e} 14 174235 Ir.sub.1P.sub.2 0.717 76 δ1(d) = 1.0 {e} 14 174236 Ir.sub.1P.sub.2 0.701 76 δ1(c) = 1.0 {e} 14 44661 Ir.sub.1P.sub.2 0.998 76 δ1(d) = 1.0 {e} 14 42620 Ir.sub.1Sb.sub.2 0.622 76 δ1(d) = 1.0 {e} 14 43502 Ir.sub.1Sb.sub.2 0.653 76 δ1(d) = 1.0 {e} 14 640955 Ir.sub.1Sb.sub.2 0.608 76 δ1(b) = 1.0 {e} 14 640961 Ir.sub.1Sb.sub.2 0.627 76 δ1(b) = 1.0 {e} 14 41938 La.sub.1P7 0.856 184 δ1(b) = 1.0, δ1(c) = 1.0 {e} 14 641821 La.sub.1S.sub.2 0.581 92 δ1(a) = 1.0 {e} 14 32529 La.sub.1Se.sub.2 0.202 92 δ1(c) = 1.0 {e} 14 32530 La.sub.1Se.sub.2 0.204 92 δ1(c) = 1.0 {e} 14 671295 Li.sub.2O.sub.2 3.457 28 δ1(c) = 1.0 {e} 14 113 Mg.sub.1P.sub.4 0.534 44 δ1(d) = 1.0 {a, e} 14 23555 Mg.sub.1P.sub.4 0.531 44 δ1(d) = 1.0 {a, e} 14 42030 Mg.sub.1P.sub.4 0.491 44 δ1(d) = 1.0 {a, e} 14 28331 N.sub.2O.sub.4 2.569 68 δ1(b) = 1.0 {e} 14 33998 N.sub.2O.sub.4 2.777 68 δ1(a) = 1.0 {e} 14 165331 N.sub.2S.sub.2 3.056 44 δ1(a) = 1.0 {e} 14 37353 N.sub.2S.sub.2 2.897 44 δ1(a) = 1.0 {e} 14 41968 N.sub.2S.sub.2 2.846 44 δ1(a) = 1.0 {e} 14 173153 O.sub.2Tc.sub.1 0.09 76 δ1(d) = 1.0 {e} 14 647708 Os.sub.1P.sub.4 1.02 56 δ1(c) = 1.0 {e, b} 14 174221 P.sub.2Rh.sub.1 0.421 76 δ1(c) = 1.0 {e} 14 174223 P.sub.2Rh.sub.1 0.34 76 δ1(d) = 1.0 {e} 14 174224 P.sub.2Rh.sub.1 0.386 76 δ1(c) = 1.0 {e} 14 174225 P.sub.2Rh.sub.1 0.395 76 δ1(d) = 1.0 {e} 14 174226 P.sub.2Rh.sub.1 0.37 76 δ1(d) = 1.0 {e} 14 174227 P.sub.2Rh.sub.1 0.457 76 δ1(d) = 1.0 {e} 14 174228 P.sub.2Rh.sub.1 0.399 76 δ1(c) = 1.0 {e} 14 42615 P.sub.2Rh.sub.1 0.666 76 δ1(c) = 1.0 {e} 14 648018 P.sub.4Ru.sub.1 0.704 56 δ1(d) = 1.0 {a, e} 14 427804 P7Pb.sub.1 0.629 156 δ1(d) = 1.0 {e} 14 650249 Rh.sub.1Sb.sub.2 0.005 76 δ1(a) = 1.0 {e} 14 653588 Rh.sub.1Si.sub.1 0.408 52 δ1(c) = 1.0 {e} 14 79235 Rh.sub.1Si.sub.1 0.251 52 δ1(b) = 1.0 {e} 14 673942 Sb.sub.1Zn.sub.1 0.054 68 δ1(a) = 1.0 {e} 15 2004 Ba.sub.1S.sub.2 1.556 44 δ1(c) = 1.0 {f, e} 15 23639 Ba.sub.1S.sub.2 1.559 44 δ1(d) = 1.0 {f, e} 15 42134 Ba.sub.1S.sub.2 1.569 44 δ1(c) = 1.0 {f, e} 15 16358 Ba.sub.1Se.sub.2 0.992 44 δ1(d) = 1.0 {f, e} 15 88102 C.sub.2Ba.sub.1 1.841 36 δ1(d) = −1.0 {f, e} 15 252715 C.sub.2Ca.sub.1 2.105 20 δ1(d) = −1.0 {f, e} 15 252721 C.sub.2Ca.sub.1 1.384 20 δ1(d) = −1.0 {f, e} 15 252722 C.sub.2Ca.sub.1 1.636 20 δ1(c) = −1.0 {f, e} 15 252724 C.sub.2Ca.sub.1 2.69 20 δ1(d) = −1.0 {f, e} 15 252727 C.sub.2Ca.sub.1 2.846 20 δ1(d) = −1.0 {f, e} 15 252730 C.sub.2Ca.sub.1 2.553 20 δ1(c) = −1.0 {f, e} 15 252733 C.sub.2Ca.sub.1 2.835 20 δ1(d) = −1.0 {f, e} 15 252736 C.sub.2Ca.sub.1 1.91 20 δ1(d) = −1.0 {f, e} 15 252739 C.sub.2Ca.sub.1 2.312 20 δ1(d) = −1.0 {f, e} 15 252742 C.sub.2Ca.sub.1 2.28 20 δ1(c) = −1.0 {f, e} 15 252745 C.sub.2Ca.sub.1 2.477 20 δ1(d) = −1.0 {f, e} 15 252748 C.sub.2Ca.sub.1 2.452 20 δ1(d) = −1.0 {f, e} 15 252751 C.sub.2Ca.sub.1 2.386 20 δ1(c) = −1.0 {f, e} 15 252754 C.sub.2Ca.sub.1 2.414 20 δ1(d) = −1.0 {f, e} 15 252757 C.sub.2Ca.sub.1 1.993 20 δ1(c) = −1.0 {f, e} 15 252760 C.sub.2Ca.sub.1 2.163 20 δ1(c) = −1.0 {f, e} 15 252763 C.sub.2Ca.sub.1 1.627 20 δ1(c) = −1.0 {f, e} 15 252766 C.sub.2Ca.sub.1 1.704 20 δ1(c) = −1.0 {f, e} 15 252769 C.sub.2Ca.sub.1 2.159 20 δ1(d) = −1.0 {f, e} 15 252772 C.sub.2Ca.sub.1 2.013 20 δ1(c) = −1.0 {f, e} 15 252775 C.sub.2Ca.sub.1 1.823 20 δ1(d) = −1.0 {f, e} 15 54184 C.sub.2Ca.sub.1 2.244 20 δ1(c) = −1.0 {f, e} 15 54187 C.sub.2Ca.sub.1 2.161 20 δ1(d) = −1.0 {f, e} 15 672969 C.sub.2Ca.sub.1 2.477 20 δ1(d) = −1.0 {f, e} 15 91051 C.sub.2Sr.sub.1 2.43 36 δ1(c) = −1.0 {f, e} 15 671322 Ca.sub.1O.sub.2 3.146 28 δ1(d) = 1.0 {f, e} 15 671327 Ca.sub.1O.sub.2 3.311 28 δ1(c) = 1.0 {f, e} 15 633067 Fe.sub.1P.sub.4 0.741 112 δ1(a) = 1.0, δ1(b) = 1.0, δ1(c) = 3.0 {f, d, e} 15 65415 Fe.sub.1P.sub.4 0.743 112 δ1(a) = 1.0, δ1(b) = 1.0, δ1(c) = 3.0 {f, d, e} 15 47120 I6Pt.sub.2 0.285 124 δ1(d) = 4.0 {f, c, e} 15 1829 Mn.sub.1P.sub.4 0.468 216 δ1(c) = 1.0 {f} 15 27160 Ni.sub.1P.sub.2 0.627 40 δ1(c) = 1.0 {f, d} 15 646107 Ni.sub.1P.sub.2 0.634 40 δ1(c) = 1.0 {f, d} 15 91560 Ni.sub.1P.sub.2 0.633 40 δ1(d) = 1.0 {f, c} 15 100081 O.sub.2Si.sub.1 5.897 128 δ1(d) = −2.0 {f, c, e} 15 100749 O.sub.2Si.sub.1 5.899 128 δ1(d) = −2.0 {f, c, e} 15 100750 O.sub.2Si.sub.1 5.898 128 δ1(d) = −2.0 {f, c, e} 15 100751 O.sub.2Si.sub.1 6.002 128 δ1(d) = −2.0 {f, c, e} 15 100752 O.sub.2Si.sub.1 6.054 128 δ1(d) = −2.0 {f, c, e} 15 100753 O.sub.2Si.sub.1 6.063 128 δ1(d) = −2.0 {f, c, e} 15 100754 O.sub.2Si.sub.1 6.11 128 δ1(c) = −2.0 {f, d, e} 15 100755 O.sub.2Si.sub.1 6.142 128 δ1(d) = −2.0 {f, c, e} 15 156195 O.sub.2Si.sub.1 5.896 128 δ1(d) = −2.0 {f, c, e} 15 162627 O.sub.2Si.sub.1 5.654 128 δ1(c) = −2.0 {f, d, e} 15 162628 O.sub.2Si.sub.1 6.042 128 δ1(c) = −2.0 {f, d, e} 15 172286 O.sub.2Si.sub.1 5.896 128 δ1(d) = −2.0 {f, c, e} 15 172287 O.sub.2Si.sub.1 5.902 128 δ1(d) = −2.0 {f, c, e} 15 172288 O.sub.2Si.sub.1 6.012 128 δ1(d) = −2.0 {f, c, e} 15 172289 O.sub.2Si.sub.1 6.04 128 δ1(d) = −2.0 {f, c, e} 15 172290 O.sub.2Si.sub.1 6.096 128 δ1(d) = −2.0 {f, c, e} 15 172291 O.sub.2Si.sub.1 6.135 128 δ1(d) = −2.0 {f, c, e} 15 172292 O.sub.2Si.sub.1 6.167 128 δ1(d) = −2.0 {f, c, e} 15 172293 O.sub.2Si.sub.1 6.217 128 δ1(d) = −2.0 {f, c, e} 15 172294 O.sub.2Si.sub.1 6.222 128 δ1(d) = −2.0 {f, c, e} 15 172295 O.sub.2Si.sub.1 6.287 128 δ1(d) = −2.0 {f, c, e} 15 172296 O.sub.2Si.sub.1 6.324 128 δ1(d) = −2.0 {f, c, e} 15 193155 O.sub.2Si.sub.1 6.022 128 δ1(c) = −2.0 {f, d, e} 15 193156 O.sub.2Si.sub.1 6.159 128 δ1(d) = −2.0 {f, c, e} 15 193157 O.sub.2Si.sub.1 6.35 128 δ1(d) = −2.0 {f, c, e} 15 193158 O.sub.2Si.sub.1 6.467 128 δ1(d) = −2.0 {f, c, e} 15 30869 O.sub.2Si.sub.1 5.988 128 δ1(d) = −2.0 {f, c, e} 15 49813 O.sub.2Si.sub.1 5.854 128 δ1(d) = −2.0 {f, c, e} 15 49814 O.sub.2Si.sub.1 5.864 128 δ1(d) = −2.0 {f, c, e} 15 65370 O.sub.2Si.sub.1 5.895 128 δ1(d) = −2.0 {f, c, e} 15 65371 O.sub.2Si.sub.1 5.892 128 δ1(d) = −2.0 {f, c, e} 15 75655 O.sub.2Si.sub.1 5.713 64 δ1(c) = −2.0 {f, d, e} 15 166275 P.sub.2Pd.sub.1 0.274 40 δ1(b) = 1.0 {a, f} 15 48163 P.sub.2Pd.sub.1 0.711 40 δ1(d) = 4.0 {f, c} 15 651433 S.sub.2Yb.sub.1 0.152 72 δ1(c) = 1.0 {f, e} 15 16797 S.sub.4V.sub.1 0.684 116 δ1(d) = 1.0 {f} 15 428285 S.sub.4V.sub.1 0.578 116 δ1(d) = 1.0 {f} 15 64770 S.sub.4V.sub.1 0.651 116 δ1(d) = 1.0 {f} 15 652069 Se.sub.3Tl.sub.2 0.548 48 δ1(d) = 1.0 {f, e} 15 48145 Se.sub.9V.sub.2 0.425 128 δ1(c) = 1.0 {f, e} 15 410895 Te.sub.3Tl.sub.2 0.319 48 δ1(c) = 1.0 {f, e} 48 170533 O.sub.2Si.sub.1 4.304 128 δ1(f) = −2.0 {m, j, e, k, i} 55 252055 As.sub.3Ca.sub.4 0.506 184 δ1(a) = −1.0, δ1(b) = −1.0 {e, f, h, i, g} 55 83351 Cs.sub.2Te.sub.2 0.963 60 δ1(c) = −1.0 {h, g} 55 671294 K.sub.2O.sub.2 2.737 60 δ1(b) = −1.0 {h, g} 55 83350 Rb.sub.2Te.sub.2 0.792 60 δ1(a) = −1.0 {h, g} 58 41724 As.sub.2Fe.sub.1 0.236 36 δ1(b) = −1.0, δ1(c) = −1.0 {a, g} 58 41805 As.sub.2Fe.sub.1 0.27 36 δ1(a) = −1.0, δ1(d) = −1.0 {c, g} 58 42114 As.sub.2Fe.sub.1 0.236 36 δ1(b) = −1.0, δ1(c) = −1.0 {a, g} 58 42603 As.sub.2Fe.sub.1 0.327 36 δ1(b) = −1.0, δ1(c) = −1.0 {a, g} 58 42723 As.sub.2Fe.sub.1 0.328 36 δ1(b) = −1.0, δ1(c) = −1.0 {a, g} 58 610453 As.sub.2Fe.sub.1 0.205 36 δ1(b) = −1.0, δ1(c) = −1.0 {a, g} 58 610456 As.sub.2Fe.sub.1 0.215 36 δ1(b) = −1.0, δ1(c) = −1.0 {a, g} 58 610471 As.sub.2Fe.sub.1 0.215 36 δ1(b) = −1.0, δ1(c) = −1.0 {a, g} 58 65168 As.sub.2Fe.sub.1 0.236 36 δ1(a) = −1.0, δ1(d) = −1.0 {b, g} 58 672723 As.sub.2Fe.sub.1 0.224 36 δ1(b) = −1.0, δ1(c) = −1.0 {d, g} 58 94062 As.sub.2Fe.sub.1 0.22 36 δ1(b) = −1.0, δ1(c) = −1.0 {a, g} 58 238253 As.sub.2Os.sub.1 0.625 36 δ1(b) = −1.0, δ1(c) = −1.0 {a, g} 58 42610 As.sub.2Os.sub.1 0.63 36 δ1(b) = −1.0, δ1(c) = −1.0 {a, g} 58 611135 As.sub.2Os.sub.1 0.617 36 δ1(b) = −1.0, δ1(c) = −1.0 {a, g} 58 611138 As.sub.2Os.sub.1 0.617 36 δ1(a) = −1.0, δ1(d) = −1.0 {b, g} 58 995 As.sub.2Os.sub.1 0.615 36 δ1(b) = −1.0, δ1(c) = −1.0 {a, g} 58 42578 As.sub.2Ru.sub.1 0.191 36 δ1(b) = −1.0, δ1(c) = −1.0 {a, g} 58 611289 As.sub.2Ru.sub.1 0.433 36 δ1(b) = −1.0, δ1(c) = −1.0 {a, g} 58 611294 As.sub.2Ru.sub.1 0.431 36 δ1(b) = −1.0, δ1(c) = −1.0 {a, g} 58 994 As.sub.2Ru.sub.1 0.434 36 δ1(b) = −1.0, δ1(c) = −1.0 {a, g} 58 672096 C.sub.1N.sub.1 3.643 36 δ1(a) = −1.0 {g} 58 15027 Fe.sub.1P.sub.2 0.35 36 δ1(b) = −1.0, δ1(c) = −1.0 {a, g} 58 42904 Fe.sub.1P.sub.2 0.434 36 δ1(b) = −1.0, δ1(c) = −1.0 {a, g} 58 633052 Fe.sub.1P.sub.2 0.348 36 δ1(b) = −1.0, δ1(c) = −1.0 {a, g} 58 633072 Fe.sub.1P.sub.2 0.302 36 δ1(b) = −1.0, δ1(c) = −1.0 {a, g} 58 109374 Fe.sub.1S.sub.2 0.735 40 δ1(c) = −1.0 {a, g} 58 26756 Fe.sub.1S.sub.2 0.733 40 δ1(c) = −1.0 {a, g} 58 42415 Fe.sub.1S.sub.2 0.733 40 δ1(c) = −1.0 {a, g} 58 42416 Fe.sub.1S.sub.2 0.727 40 δ1(c) = −1.0 {a, g} 58 633255 Fe.sub.1S.sub.2 0.705 40 δ1(c) = −1.0 {a, g} 58 633275 Fe.sub.1S.sub.2 0.738 40 δ1(c) = −1.0 {a, g} 58 633304 Fe.sub.1S.sub.2 0.721 40 δ1(c) = −1.0 {a, g} 58 151397 Fe.sub.1Sb.sub.2 0.111 36 δ1(a) = −1.0, δ1(d) = −1.0 {c, g} 58 25680 Fe.sub.1Se.sub.2 0.211 40 δ1(c) = −1.0 {a, g} 58 42041 Fe.sub.1Se.sub.2 0.226 40 δ1(a) = −1.0 {c, g} 58 42115 Fe.sub.1Se.sub.2 0.24 40 δ1(c) = −1.0 {a, g} 58 44751 Fe.sub.1Se.sub.2 0.215 40 δ1(c) = −1.0 {a, g} 58 633469 Fe.sub.1Se.sub.2 0.205 40 δ1(c) = −1.0 {a, g} 58 633479 Fe.sub.1Se.sub.2 0.225 40 δ1(c) = −1.0 {a, g} 58 15931 In.sub.1S.sub.1 0.675 36 δ1(d) = −1.0 {g} 58 640349 In.sub.1S.sub.1 0.675 36 δ1(a) = −1.0 {g} 58 673915 In.sub.1S.sub.1 1.365 36 δ1(c) = −1.0 {g} 58 81338 In.sub.1S.sub.1 1.145 36 δ1(a) = −1.0 {g} 58 81339 In.sub.1S.sub.1 1.088 36 δ1(a) = −1.0 {g} 58 81340 In.sub.1S.sub.1 0.74 36 δ1(a) = −1.0 {g} 58 81341 In.sub.1S.sub.1 0.597 36 δ1(a) = −1.0 {g} 58 81342 In.sub.1S.sub.1 0.466 36 δ1(a) = −1.0 {g} 58 157940 N.sub.2Pt.sub.1 0.403 40 δ1(c) = −1.0 {a, g} 58 166463 N.sub.2Pt.sub.1 0.38 40 δ1(c) = −1.0 {a, g} 58 238252 Os.sub.1P.sub.2 0.686 36 δ1(a) = −1.0, δ1(d) = −1.0 {c, g} 58 42609 Os.sub.1P.sub.2 0.723 36 δ1(a) = −1.0, δ1(d) = −1.0 {b, g} 58 42740 Os.sub.1P.sub.2 0.051 36 δ1(b) = −1.0, δ1(c) = −1.0 {a, g} 58 647706 Os.sub.1P.sub.2 0.723 36 δ1(a) = −1.0, δ1(d) = −1.0 {b, g} 58 647711 Os.sub.1P.sub.2 0.723 36 δ1(b) = −1.0, δ1(c) = −1.0 {a, g} 58 672577 Os.sub.1P.sub.2 0.707 36 δ1(a) = −1.0, δ1(d) = −1.0 {c, g} 58 993 Os.sub.1P.sub.2 0.703 36 δ1(b) = −1.0, δ1(c) = −1.0 {a, g} 58 238254 Os.sub.1Sb.sub.2 0.405 36 δ1(b) = −1.0, δ1(c) = −1.0 {a, g} 58 42611 Os.sub.1Sb.sub.2 0.407 36 δ1(b) = −1.0, δ1(c) = −1.0 {a, g} 58 647754 Os.sub.1Sb.sub.2 0.316 36 δ1(b) = −1.0, δ1(c) = −1.0 {a, g} 58 647757 Os.sub.1Sb.sub.2 0.396 36 δ1(b) = −1.0, δ1(c) = −1.0 {a, g} 58 647758 Os.sub.1Sb.sub.2 0.31 36 δ1(b) = −1.0, δ1(c) = −1.0 {a, g} 58 997 Os.sub.1Sb.sub.2 0.323 36 δ1(b) = −1.0, δ1(c) = −1.0 {a, g} 58 42607 P.sub.2Ru.sub.1 0.539 36 δ1(b) = −1.0, δ1(c) = −1.0 {a, g} 58 42737 P.sub.2Ru.sub.1 0.539 36 δ1(b) = −1.0, δ1(c) = −1.0 {a, g} 58 648016 P.sub.2Ru.sub.1 0.44 36 δ1(b) = −1.0, δ1(c) = −1.0 {a, g} 58 648022 P.sub.2Ru.sub.1 0.441 36 δ1(a) = −1.0, δ1(d) = −1.0 {c, g} 58 992 P.sub.2Ru.sub.1 0.44 36 δ1(b) = −1.0, δ1(c) = −1.0 {a, g} 58 42608 Ru.sub.1Sb.sub.2 0.031 36 δ1(b) = −1.0, δ1(c) = −1.0 {a, g} 58 42739 Ru.sub.1Sb.sub.2 0.031 36 δ1(b) = −1.0, δ1(c) = −1.0 {a, g} 58 996 Ru.sub.1Sb.sub.2 0.002 36 δ1(b) = −1.0, δ1(c) = −1.0 {a, g} 58 106001 Ru.sub.1Te.sub.2 0.179 40 δ1(c) = −1.0 {a, g} 58 406722 Ru.sub.1Te.sub.2 0.19 40 δ1(b) = −1.0 {d, g} 58 650713 Ru.sub.1Te.sub.2 0.178 40 δ1(c) = −1.0 {a, g} 60 637466 Ge.sub.3Os.sub.2 0.634 224 δ1(a) = 1.0, δ1(b) = 1.0 {c, d} 60 95592 Ge.sub.3Os.sub.2 0.69 224 δ1(a) = 1.0, δ1(b) = 1.0 {c, d} 60 2345 Ge.sub.3Ru.sub.2 0.36 224 δ1(a) = 1.0, δ1(b) = 1.0 {c, d} 60 42121 Ge.sub.3Ru.sub.2 0.373 224 δ1(a) = 1.0, δ1(b) = 1.0 {c, d} 60 637740 Ge.sub.3Ru.sub.2 0.453 224 δ1(a) = 1.0, δ1(b) = 1.0 {c, d} 60 637743 Ge.sub.3Ru.sub.2 0.373 224 δ1(a) = 1.0, δ1(b) = 1.0 {c, d} 60 85205 Ge.sub.3Ru.sub.2 0.389 224 δ1(a) = 1.0, δ1(b) = 1.0 {c, d} 60 95588 Ge.sub.3Ru.sub.2 0.381 224 δ1(a) = 1.0, δ1(b) = 1.0 {c, d} 60 647772 Os.sub.2Si.sub.3 0.671 224 δ1(a) = 1.0, δ1(b) = 1.0 {c, d} 60 647782 Os.sub.2Si.sub.3 0.682 224 δ1(a) = 1.0, δ1(b) = 1.0 {c, d} 60 95590 Os.sub.2Si.sub.3 0.794 224 δ1(a) = 1.0, δ1(b) = 1.0 {c, d} 60 2344 Ru.sub.2Si.sub.3 0.461 224 δ1(a) = 1.0, δ1(b) = 1.0 {c, d} 60 42122 Ru.sub.2Si.sub.3 0.534 224 δ1(a) = 1.0, δ1(b) = 1.0 {c, d} 60 56644 Ru.sub.2Si.sub.3 0.447 224 δ1(a) = 1.0, δ1(b) = 1.0 {c, d} 60 650619 Ru.sub.2Si.sub.3 0.444 224 δ1(a) = 1.0, δ1(b) = 1.0 {c, d} 60 95586 Ru.sub.2Si.sub.3 0.549 224 δ1(a) = 1.0, δ1(b) = 1.0 {c, d} 61 432 As.sub.1Cd.sub.1 0.179 136 δ1(b) = 1.0 {c} 61 427612 As.sub.1Zn.sub.1 0.363 136 δ1(a) = 1.0 {c} 61 427613 As.sub.1Zn.sub.1 0.359 136 δ1(a) = 1.0 {c} 61 431 As.sub.1Zn.sub.1 0.248 136 δ1(a) = 1.0 {c} 61 14213 B.sub.2Cl.sub.4 2.672 136 δ1(a) = 1.0 {c} 61 31693 B.sub.2Cl.sub.4 2.622 136 δ1(b) = 1.0 {c} 61 15870 C.sub.2N.sub.2 5.245 72 δ1(a) = 1.0 {c} 61 52830 Cd.sub.1Sb.sub.1 0.098 136 δ1(a) = 1.0 {c} 61 52831 Cd.sub.1Sb.sub.1 0.067 136 δ1(b) = 1.0 {c} 61 620394 Cd.sub.1Sb.sub.1 0.117 136 δ1(b) = 1.0 {c} 61 620395 Cd.sub.1Sb.sub.1 0.082 136 δ1(b) = 1.0 {c} 61 180778 Cl.sub.1O.sub.2 0.391 152 δ1(a) = −1.0 {c} 61 67663 Cl.sub.1O.sub.2 0.343 152 δ1(b) = −1.0 {c} 61 67664 Cl.sub.1O.sub.2 0.391 152 δ1(a) = −1.0 {c} 61 67665 Cl.sub.1O.sub.2 0.411 152 δ1(b) = −1.0 {c} 61 67666 Cl.sub.1O.sub.2 0.424 152 δ1(a) = −1.0 {c} 61 24774 Hg.sub.1O.sub.2 0.324 96 δ1(b) = 1.0 {a, c} 61 8197 P.sub.4Re.sub.1 0.764 216 δ1(b) = 1.0 {c} 61 35117 P.sub.4Tc.sub.1 0.863 216 δ1(a) = 1.0 {c} 61 648753 Pd.sub.1S.sub.2 0.092 88 δ1(b) = 1.0 {a, c} 61 43265 Sb.sub.1Zn.sub.1 0.066 136 δ1(b) = 1.0 {c} 61 43653 Sb.sub.1Zn.sub.1 0.067 136 δ1(a) = 1.0 {c} 61 601137 Sb.sub.1Zn.sub.1 0.056 136 δ1(a) = 1.0 {c} 61 651770 Sb.sub.1Zn.sub.1 0.043 136 δ1(a) = 1.0 {c} 61 671286 Sb.sub.1Zn.sub.1 0.018 136 δ1(b) = 1.0 {c} 61 673941 Sb.sub.1Zn.sub.1 0.02 136 δ1(b) = 1.0 {c} 61 76937 Sb.sub.1Zn.sub.1 0.099 136 δ1(a) = 1.0 {c} 62 425310 B.sub.2Fe.sub.1 0.427 56 δ1(a) = 1.0 {c, d} 62 673936 Na.sub.1P.sub.5 1.393 104 δ1(a) = 1.0 {c, d} 62 99177 Na.sub.1P.sub.5 1.334 104 δ1(a) = 1.0 {c, d} 62 647985 P.sub.3Re.sub.1 0.07 88 δ1(b) = 1.0 {c} 62 35200 P.sub.3Tc.sub.1 0.417 88 δ1(a) = 1.0 {c} 64 429733 Ba.sub.5P.sub.4 0.857 140 δ1(a) = −1.0 {f, d, b, g} 64 280022 Ba.sub.5Sb.sub.4 0.227 140 δ1(a) = −1.0 {f, d, b, g} 64 262063 K.sub.1Tl.sub.1 0.116 144 δ1(b) = −2.0 {f, d, e, g} 64 262067 K.sub.1Tl.sub.1 0.034 144 δ1(b) = −2.0 {f, d, e, g} 64 180559 K.sub.2O.sub.2 2.538 60 δ1(a) = −1.0 {f, e} 64 25527 K.sub.2O.sub.2 2.403 60 δ1(a) = −1.0 {f, e} 64 36641 K.sub.2O.sub.2 2.478 60 δ1(a) = −1.0 {f, e} 65 180398 Ba.sub.1O.sub.2 0.484 22 δ1(c) = −1.0 {a, j} 67 164055 F.sub.3La.sub.1 4.816 128 δ1(c) = 2.0, δ1(f) = 2.0 {n, b, e, h, d, g} 68 170527 O.sub.2Si.sub.1 4.623 128 δ1(d) = −2.0 {c, e, h, i, g} 69 409382 As6Cs.sub.4 0.427 66 δ1(a) = 1.0 {f, h, n, i} 69 409381 As6Rb.sub.4 0.395 66 δ1(a) = 1.0 {f, h, n, i} 69 65185 Cs.sub.4P6 0.84 66 δ1(a) = 1.0 {f, h, n, i} 69 33259 K.sub.4P6 0.698 66 δ1(a) = 1.0 {f, h, n, i} 69 65184 P6Rb.sub.4 0.749 66 δ1(a) = 1.0 {f, h, n, i} 69 654296 P6Rb.sub.4 0.746 66 δ1(a) = 1.0 {f, h, n, i} 70 58156 Al.sub.2Ru.sub.1 0.095 28 δ1(d) = 1.0 {f, b} 70 609228 Al.sub.2Ru.sub.1 0.105 28 δ1(d) = 1.0 {f, b} 70 103785 Ga.sub.2Os.sub.1 0.544 28 δ1(d) = 1.0 {f, b} 70 635227 Ga.sub.2Ru.sub.1 0.203 28 δ1(d) = 1.0 {f, b} 70 635228 Ga.sub.2Ru.sub.1 0.101 28 δ1(d) = 1.0 {f, b} 70 670154 Ga.sub.2Ru.sub.1 0.089 28 δ1(d) = 1.0 {f, b} 70 670380 Ga.sub.2Ru.sub.1 0.234 28 δ1(d) = 1.0 {f, b} 71 25705 C.sub.2Li.sub.2 3.569 10 δ1(c) = 1.0 {i, g} 71 670913 C.sub.2Li.sub.2 3.304 10 δ1(d) = 1.0 {h, i} 71 671740 C.sub.2Li.sub.2 3.264 10 δ1(c) = 1.0 {i, g} 71 671741 C.sub.2Li.sub.2 3.177 10 δ1(c) = 1.0 {i, g} 71 671742 C.sub.2Li.sub.2 3.094 10 δ1(c) = 1.0 {i, g} 71 671743 C.sub.2Li.sub.2 3.024 10 δ1(c) = 1.0 {i, g} 71 671744 C.sub.2Li.sub.2 2.957 10 δ1(c) = 1.0 {i, g} 71 671745 C.sub.2Li.sub.2 2.895 10 δ1(c) = 1.0 {i, g} 71 671746 C.sub.2Li.sub.2 2.841 10 δ1(c) = 1.0 {i, g} 71 671747 C.sub.2Li.sub.2 2.786 10 δ1(c) = 1.0 {i, g} 71 671748 C.sub.2Li.sub.2 2.732 10 δ1(c) = 1.0 {i, g} 71 671749 C.sub.2Li.sub.2 2.658 10 δ1(c) = 1.0 {i, g} 71 671750 C.sub.2Li.sub.2 2.585 10 δ1(c) = 1.0 {i, g} 71 671751 C.sub.2Li.sub.2 2.507 10 δ1(c) = 1.0 {i, g} 71 671752 C.sub.2Li.sub.2 2.442 10 δ1(c) = 1.0 {i, g} 71 671753 C.sub.2Li.sub.2 2.365 10 δ1(c) = 1.0 {i, g} 71 671754 C.sub.2Li.sub.2 2.071 10 δ1(a) = 1.0 {i, g} 71 671755 C.sub.2Li.sub.2 1.906 10 δ1(c) = 1.0 {i, g} 71 89535 C.sub.2Li.sub.2 3.497 10 δ1(a) = 1.0 {i, g} 71 95835 C.sub.2Na.sub.2 3.648 10 δ1(c) = 1.0 {i, g} 71 25529 Cs.sub.2O.sub.2 1.745 30 δ1(c) = −1.0 {i, g} 71 200474 Cs.sub.2S.sub.2 1.79 30 δ1(d) = −1.0 {h, i} 71 167554 F.sub.3La.sub.1 5.594 32 δ1(b) = 2.0 {a, c, j} 71 180560 O.sub.2Rb.sub.2 1.929 30 δ1(c) = −1.0 {i, g} 71 25528 O.sub.2Rb.sub.2 1.806 30 δ1(c) = −1.0 {i, g} 71 73175 Rb.sub.2S.sub.2 1.697 30 δ1(a) = −1.0 {i, g} 74 412621 B.sub.3Si.sub.1 1.405 104 δ1(b) = 1.0, δ1(d) = −1.0 {h, j, i} 74 674920 H6Ru.sub.1 0.228 56 δ1(d) = −1.0 {h, j, i, g} 74 84260 O6.sub.4Si.sub.32 3.856 256 δ1(d) = 2.0 {j, b, e, h, i, g} 87 66024 K.sub.5Te.sub.3 0.103 126 δ1(a) = −1.0 {h, d, e} 87 96743 K.sub.5Te.sub.3 0.117 126 δ1(a) = −1.0 {h, d, e} 88 412618 B.sub.10F.sub.12 3.268 228 δ1(a) = 1.0 {f, e} 88 160538 Li.sub.1Si.sub.1 0.012 40 δ1(d) = 1.0 {f} 119 247678 C.sub.1N.sub.2 0.115 14 δ1(b) = 1.0 {d, e} 119 102867 Cs.sub.1In.sub.3 0.054 54 δ1(d) = −1.0 {a, f, b, i} 119 103649 Ga.sub.3K.sub.1 0.208 54 δ1(c) = −1.0 {a, f, b, i} 119 20664 Ga.sub.3K.sub.1 0.212 54 δ1(a) = −1.0 {c, d, e, i} 119 634466 Ga.sub.3K.sub.1 0.206 54 δ1(c) = −1.0 {a, f, b, i} 119 103943 Ga.sub.3Rb.sub.1 0.25 54 δ1(c) = −1.0 {a, f, b, i} 119 169739 H.sub.8Si.sub.1 6.013 12 δ1(b) = 1.0, δ1(d) = 1.0 {a, f, e, i} 136 88057 C.sub.2Mg.sub.1 2.847 20 δ1(a) = 1.0 {f, b} 136 103447 Fe.sub.1Ga.sub.3 0.084 68 δ1(a) = −1.0 {f, c, j} 136 103448 Fe.sub.1Ga.sub.3 0.439 68 δ1(b) = −1.0 {f, c, j} 136 412077 Fe.sub.1Ga.sub.3 0.41 68 δ1(a) = −1.0 {c, j, g} 136 631748 Fe.sub.1Ga.sub.3 0.442 68 δ1(b) = −1.0 {f, c, j} 136 631760 Fe.sub.1Ga.sub.3 0.44 68 δ1(b) = −1.0 {f, c, j} 136 670144 Fe.sub.1Ga.sub.3 0.44 68 δ1(b) = −1.0 {c, j, g} 136 635024 Ga.sub.3Os.sub.1 0.438 68 δ1(b) = −1.0 {f, c, j} 136 412078 Ga.sub.3Ru.sub.1 0.353 68 δ1(b) = −1.0 {f, c, j} 136 635229 Ga.sub.3Ru.sub.1 0.361 68 δ1(a) = −1.0 {f, c, j} 136 55514 In.sub.3Ru.sub.1 0.185 68 δ1(b) = −1.0 {f, c, j} 136 640343 In.sub.3Ru.sub.1 0.181 68 δ1(b) = −1.0 {f, c, j} 136 671853 Li.sub.2S.sub.2 1.778 28 δ1(b) = −1.0 {f, d} 137 674671 B.sub.4Os.sub.1 1.962 40 δ1(b) = −1.0 {a, g} 137 26152 Cl.sub.2Zn.sub.1 3.837 52 δ1(b) = −1.0 {a, d} 137 150345 Hg.sub.1I.sub.2 0.926 52 δ1(a) = −1.0 {d, b} 137 22241 Hg.sub.1I.sub.2 0.96 52 δ1(a) = −1.0 {d, b} 137 22401 Hg.sub.1I.sub.2 0.975 52 δ1(b) = −1.0 {a, d} 137 36312 Hg.sub.1I.sub.2 1.05 52 δ1(b) = −1.0 {a, d} 137 67069 Hg.sub.1I.sub.2 0.967 52 δ1(b) = −1.0 {a, d} 137 68262 Hg.sub.1I.sub.2 0.959 52 δ1(a) = −1.0 {d, b} 137 241170 Hg.sub.2I.sub.4 0.912 52 δ1(a) = −1.0 {d, b} 137 241171 Hg.sub.2I.sub.4 0.914 52 δ1(a) = −1.0 {d, b} 137 241172 Hg.sub.2I.sub.4 0.919 52 δ1(a) = −1.0 {d, b} 137 241173 Hg.sub.2I.sub.4 0.926 52 δ1(a) = −1.0 {d, b} 137 241174 Hg.sub.2I.sub.4 0.932 52 δ1(a) = −1.0 {d, b} 137 241175 Hg.sub.2I.sub.4 0.941 52 δ1(a) = −1.0 {d, b} 139 58108 Al.sub.2Os.sub.1 0.264 14 δ1(c) = −1.0 {a, e} 139 166865 As.sub.1Ca.sub.2 0.02 18 δ2(b) = −1.0 {c, e} 139 42357 As.sub.1Ca.sub.2 0.02 18 δ2(b) = −1.0 {c, e} 139 180397 Ba.sub.1O.sub.2 1.872 22 δ2(b) = −1.0 {a, e} 139 24248 Ba.sub.1O.sub.2 1.238 22 δ2(b) = −1.0 {a, e} 139 24729 Ba.sub.1O.sub.2 2.172 22 δ2(a) = −1.0 {e, b} 139 80750 Ba.sub.1O.sub.2 2.151 22 δ2(b) = −1.0 {a, e} 139 42136 Bi.sub.1Ca.sub.2 0.006 18 δ2(b) = −1.0 {c, e} 139 673918 Br.sub.1Hg.sub.1 2.355 38 δ2(a) = −1.0 {e} 139 157980 Br.sub.2Hg.sub.2 1.658 38 δ2(a) = −1.0 {e} 139 23721 Br.sub.2Hg.sub.2 1.727 38 δ2(a) = −1.0 {e} 139 31174 Br.sub.2Hg.sub.2 2.068 38 δ2(a) = −1.0 {e} 139 168410 C.sub.2Ba.sub.1 1.469 18 δ1(b) = 1.0 {a, e} 139 186575 C.sub.2Ba.sub.1 1.457 18 δ1(b) = 1.0 {a, e} 139 56160 C.sub.2Ba.sub.1 1.394 18 δ1(b) = 1.0 {a, e} 139 615792 C.sub.2Ba.sub.1 1.646 18 δ1(b) = 1.0 {a, e} 139 615794 C.sub.2Ba.sub.1 0.409 18 δ1(b) = 1.0 {a, e} 139 88098 C.sub.2Ba.sub.1 1.664 18 δ1(b) = 1.0 {a, e} 139 88101 C.sub.2Ba.sub.1 1.414 18 δ1(b) = 1.0 {a, e} 139 252714 C.sub.2Ca.sub.1 1.728 10 δ1(b) = 1.0 {a, e} 139 252717 C.sub.2Ca.sub.1 2.122 10 δ1(b) = 1.0 {a, e} 139 252720 C.sub.2Ca.sub.1 0.228 10 δ1(b) = 1.0 {a, e} 139 252723 C.sub.2Ca.sub.1 0.281 10 δ1(b) = 1.0 {a, e} 139 252726 C.sub.2Ca.sub.1 1.588 10 δ1(b) = 1.0 {a, e} 139 252729 C.sub.2Ca.sub.1 1.449 10 δ1(b) = 1.0 {a, e} 139 252732 C.sub.2Ca.sub.1 1.632 10 δ1(b) = 1.0 {a, e} 139 252735 C.sub.2Ca.sub.1 1.774 10 δ1(b) = 1.0 {a, e} 139 252738 C.sub.2Ca.sub.1 2.293 10 δ1(b) = 1.0 {a, e} 139 252741 C.sub.2Ca.sub.1 1.73 10 δ1(b) = 1.0 {a, e} 139 252744 C.sub.2Ca.sub.1 1.732 10 δ1(b) = 1.0 {a, e} 139 252747 C.sub.2Ca.sub.1 2.388 10 δ1(b) = 1.0 {a, e} 139 252750 C.sub.2Ca.sub.1 1.723 10 δ1(b) = 1.0 {a, e} 139 252753 C.sub.2Ca.sub.1 2.387 10 δ1(b) = 1.0 {a, e} 139 252756 C.sub.2Ca.sub.1 1.449 10 δ1(b) = 1.0 {a, e} 139 252759 C.sub.2Ca.sub.1 1.729 10 δ1(b) = 1.0 {a, e} 139 252762 C.sub.2Ca.sub.1 1.272 10 δ1(b) = 1.0 {a, e} 139 252765 C.sub.2Ca.sub.1 1.254 10 δ1(b) = 1.0 {a, e} 139 252768 C.sub.2Ca.sub.1 1.732 10 δ1(b) = 1.0 {a, e} 139 252771 C.sub.2Ca.sub.1 1.731 10 δ1(b) = 1.0 {a, e} 139 252774 C.sub.2Ca.sub.1 2.151 10 δ1(b) = 1.0 {a, e} 139 410313 C.sub.2Ca.sub.1 1.569 10 δ1(b) = 1.0 {a, e} 139 411188 C.sub.2Ca.sub.1 1.539 10 δ1(b) = 1.0 {a, e} 139 54186 C.sub.2Ca.sub.1 1.205 10 δ1(b) = 1.0 {a, e} 139 56158 C.sub.2Ca.sub.1 1.725 10 δ1(b) = 1.0 {a, e} 139 617300 C.sub.2Ca.sub.1 1.539 10 δ1(b) = 1.0 {a, e} 139 617303 C.sub.2Ca.sub.1 1.521 10 δ1(b) = 1.0 {a, e} 139 672968 C.sub.2Ca.sub.1 1.325 10 δ1(b) = 1.0 {a, e} 139 74665 C.sub.2Ca.sub.1 1.596 10 δ1(b) = 1.0 {a, e} 139 410316 C.sub.2Sr.sub.1 2.014 18 δ1(b) = 1.0 {a, e} 139 410317 C.sub.2Sr.sub.1 1.849 18 δ1(b) = 1.0 {a, e} 139 618813 C.sub.2Sr.sub.1 1.951 18 δ1(b) = 1.0 {a, e} 139 618815 C.sub.2Sr.sub.1 0.872 18 δ1(b) = 1.0 {a, e} 139 91048 C.sub.2Sr.sub.1 1.914 18 δ1(b) = 1.0 {a, e} 139 91050 C.sub.2Sr.sub.1 2.004 18 δ1(b) = 1.0 {a, e} 139 20275 Ca.sub.1O.sub.2 1.636 14 δ2(a) = −1.0 {e, b} 139 619462 Ca.sub.1O.sub.2 1.384 14 δ2(b) = −1.0 {a, e} 139 671324 Ca.sub.1O.sub.2 2.897 14 δ2(b) = −1.0 {a, e} 139 157979 Cl.sub.2Hg.sub.2 1.833 38 δ2(a) = −1.0 {e} 139 23720 Cl.sub.2Hg.sub.2 2.836 38 δ2(a) = −1.0 {e} 139 31173 Cl.sub.2Hg.sub.2 2.367 38 δ2(a) = −1.0 {e} 139 36195 Cl.sub.2Hg.sub.2 2.413 38 δ2(a) = −1.0 {e} 139 65441 Cl.sub.2Hg.sub.2 2.913 38 δ2(a) = −1.0 {e} 139 23719 F.sub.2Hg.sub.2 1.635 38 δ2(a) = −1.0 {e} 139 27700 F.sub.2Hg.sub.2 1.325 38 δ2(a) = −1.0 {e} 139 72354 F.sub.2Hg.sub.2 1.72 38 δ2(a) = −1.0 {e} 139 160496 Ga.sub.3K.sub.2 0.119 54 δ1(a) = −1.0, δ1(c) = −1.0 {d, e, i} 139 673919 Hg.sub.1I.sub.1 1.607 38 δ2(a) = −1.0 {e} 139 157981 Hg.sub.1I.sub.1 1.106 38 δ2(a) = −1.0 {e} 139 262368 Hg.sub.2I.sub.2 1.594 38 δ2(a) = −1.0 {e} 139 36189 Hg.sub.2I.sub.2 1.197 38 δ2(a) = −1.0 {e} 139 370026 In.sub.3Rb.sub.2 0.048 54 δ1(a) = −1.0, δ1(c) = −1.0 {d, e, i} 139 24249 O.sub.2Sr.sub.1 2.202 22 δ2(b) = −1.0 {a, e} 139 647474 O.sub.2Sr.sub.1 2.778 22 δ2(b) = −1.0 {a, e} 140 75555 Ba.sub.3Te.sub.2 0.345 44 δ1(d) = −1.0 {a, h} 140 80280 Ba.sub.3Te.sub.2 0.345 44 δ1(d) = −1.0 {a, h} 140 671323 Ca.sub.1O.sub.2 2.952 28 δ1(d) = −1.0 {a, h} 140 672113 O.sub.2Zn.sub.1 3.207 48 δ1(d) = −1.0 {a, h} 140 23640 S.sub.2Sr.sub.1 1.334 44 δ1(d) = −1.0 {a, h} 140 642 S.sub.2Sr.sub.1 1.3 44 δ1(d) = −1.0 {a, h} 141 200286 Au.sub.1Br.sub.1 1.49 72 δ1(d) = −5.0 {c, e} 141 6052 Au.sub.1Cl.sub.1 1.226 72 δ1(c) = −5.0 {d, e} 141 1093 O.sub.3U.sub.1 1.347 256 δ1(c) = 2.0 {h, d, e} 141 15884 O.sub.3U.sub.1 0.503 256 δ1(d) = 2.0 {c, e, h} 141 670375 O.sub.3U.sub.1 1.349 256 δ1(c) = 2.0 {h, d, e} 141 153257 O.sub.64Si.sub.32 5.621 256 δ1(c) = 2.0 {e, h, d, i, g} 148 41540 Br.sub.12Zr6 0.013 108 δ2(a) = −2.0 {f} 148 41539 Cl.sub.12Zr6 0.025 108 δ2(a) = −2.0 {f} 148 35145 I.sub.12Zr6 0.005 108 δ2(a) = −2.0 {f} 148 239355 I6Si.sub.2 2.809 50 δ2(a) = −1.0 {f, c} 164 247679 C.sub.1N.sub.2 2.316 28 δ2(a) = −1.0, δ1(f) = −1.0 {c, d} 164 670188 C.sub.2Mg.sub.1 0.686 10 δ1(e) = −1.0 {d, b} 166 107916 As.sub.1B6 2.573 46 δ2(a) = 1.0, δ2(b) = −1.0, δ1(d) = −1.0 {c, h} 166 68151 As.sub.1B6 2.655 46 δ2(a) = 1.0, δ2(b) = −1.0, δ1(d) = −1.0 {c, h} 166 62749 As.sub.2B.sub.12 2.64 46 δ2(a) = 1.0, δ2(b) = −1.0, δ1(d) = −1.0 {c, h} 166 62748 B.sub.12P.sub.2 2.419 46 δ2(a) = 1.0, δ2(b) = −1.0, δ1(d) = −1.0 {c, h} 166 615435 B.sub.12Si.sub.3 0.67 48 δ2(a) = 1.0, δ1(d) = −1.0 {c, h, b} 166 615112 B6O.sub.1 1.192 48 δ2(a) = 1.0, δ1(d) = −1.0 {c, h} 166 656230 B6O.sub.1 2.057 48 δ2(a) = 1.0, δ1(d) = −1.0 {c, h} 166 656231 B6O.sub.1 1.67 48 δ2(a) = 1.0, δ1(d) = −1.0 {c, h} 166 71065 B6O.sub.1 1.67 48 δ2(a) = 1.0, δ1(d) = −1.0 {c, h} 166 71066 B6O.sub.1 2.057 48 δ2(a) = 1.0, δ1(d) = −1.0 {c, h} 166 82879 B6O.sub.1 1.683 48 δ2(a) = 1.0, δ1(d) = −1.0 {c, h} 166 615156 B6P.sub.1 2.375 46 δ2(a) = 1.0, δ2(b) = −1.0, δ1(d) = −1.0 {c, h} 166 615157 B6P.sub.1 2.375 46 δ2(a) = 1.0, δ2(b) = −1.0, δ1(d) = −1.0 {c, h} 166 25766 Br.sub.8Nb.sub.3 0.069 190 δ2(b) = −1.0 {c, h} 166 421609 Br.sub.8Nb.sub.3 0.06 190 δ2(b) = −1.0 {c, h} 166 29093 C.sub.1B.sub.4 1.102 48 δ2(a) = 1.0, δ1(d) = −1.0 {c, h, b} 166 654971 C.sub.1B.sub.4 1.106 48 δ2(a) = 1.0, δ1(d) = −1.0 {c, h, b} 166 186576 C.sub.2Ba.sub.1 1.043 18 δ1(b) = 1.0 {a, c} 166 236872 C.sub.2Ca.sub.1 2.086 10 δ1(b) = 1.0 {a, c} 166 236873 C.sub.2Sr.sub.1 1.677 18 δ1(b) = 1.0 {a, c} 166 612562 C.sub.3B.sub.12 0.84 48 δ2(a) = 1.0, δ1(d) = −1.0 {c, h, b} 166 40824 Ga.sub.1S.sub.1 1.553 18 δ2(a) = −1.0 {c} 166 25767 I.sub.8Nb.sub.3 0.091 190 δ2(b) = −1.0 {c, h} 187 673442 Cr.sub.1N.sub.2 0.609 16 δ1(0) = 1.0, δ1(f) = 1.0, δ1(h) = 1.0 {a, i} 187 601159 Ga.sub.1Se.sub.1 1.024 36 δ1(0) = 1.0, δ1(f) = 1.0 {h, i, g} 187 635363 Ga.sub.1Se.sub.1 1.003 36 δ1(b) = 1.0, δ1(e) = 1.0 {h, i, g} 187 635372 Ga.sub.1Se.sub.1 1.05 36 δ1(b) = 1.0, δ1(e) = 1.0 {h, i, g} 187 71082 Ga.sub.1Se.sub.1 1.068 36 δ1(a) = 1.0, δ1(f) = 1.0 {h, i, g} 187 73387 Ga.sub.1Se.sub.1 1.068 36 δ1(b) = 1.0, δ1(e) = 1.0 {h, i, g} 187 640503 In.sub.1Se.sub.1 0.66 36 δ1(a) = 1.0, δ1(f) = 1.0 {h, i, g} 187 674581 Mo.sub.1N.sub.2 0.765 16 δ1(d) = 1.0, δ1(e) = 1.0, δ1(1) = 1.0 {a, h} 187 290433 N.sub.2W.sub.1 0.81 16 δ1(a) = 1.0, δ1(d) = 1.0, δ1(h) = 1.0 {f, g} 189 26261 Ca.sub.1P.sub.1 0.405 42 δ1(b) = 1.0, δ1(0) = −1.0 {f, h, e, g} 189 83352 Ca.sub.2P.sub.2 0.281 42 δ1(b) = 1.0, δ1(0) = −1.0 {f, h, e, g} 189 43406 K.sub.2S.sub.2 1.517 90 δ1(b) = 1.0, δ1(0) = −1.0 {f, h, e, g} 189 73171 K.sub.2S.sub.2 1.44 90 δ1(a) = 1.0, δ1(d) = −1.0 {f, h, e, g} 189 73172 K.sub.2Se.sub.2 0.697 90 δ1(a) = 1.0, δ1(d) = −1.0 {f, h, e, g} 189 109276 Na.sub.2O.sub.2 1.981 42 δ1(a) = 1.0, δ1(d) = −1.0 {f, h, e, g} 189 180558 Na.sub.2O.sub.2 1.438 42 δ1(a) = 1.0, δ1(d) = −1.0 {f, h, e, g} 189 25526 Na.sub.2O.sub.2 1.975 42 δ1(b) = 1.0, δ1(0) = −1.0 {f, h, e, g} 189 26575 Na.sub.2O.sub.2 1.978 42 δ1(a) = 1.0, δ1(d) = −1.0 {f, h, e, g} 189 43405 Na.sub.2S.sub.2 0.861 42 δ1(b) = 1.0, δ1(0) = −1.0 {f, h, e, g} 189 73180 Na.sub.2S.sub.2 0.896 42 δ1(a) = 1.0, δ1(d) = −1.0 {f, h, e, g} 189 26262 P.sub.1Sr.sub.1 0.457 90 δ1(b) = 1.0, δ1(0) = −1.0 {f, h, e, g} 189 73176 Rb.sub.2S.sub.2 1.03 90 δ1(a) = 1.0, δ1(d) = −1.0 {f, h, e, g} 194 168280 C.sub.2Os.sub.1 0.018 32 δ2(a) = −1.0 {d, e} 194 673438 Cr.sub.1N.sub.2 0.762 32 δ2(a) = −1.0, δ1(0) = 1.0 {d, e} 194 167394 Ga.sub.1S.sub.1 1.574 36 δ1(0) = 1.0 {f} 194 173940 Ga.sub.1S.sub.1 1.553 36 δ1(0) = 1.0 {f} 194 173941 Ga.sub.1S.sub.1 1.552 36 δ1(0) = 1.0 {f} 194 201344 Ga.sub.1S.sub.1 1.553 36 δ1(0) = 1.0 {f} 194 201345 Ga.sub.1S.sub.1 1.552 36 δ1(0) = 1.0 {f} 194 25660 Ga.sub.1S.sub.1 1.566 36 δ1(0) = 1.0 {f} 194 53586 Ga.sub.1S.sub.1 1.469 36 δ1(0) = 1.0 {f} 194 53587 Ga.sub.1S.sub.1 1.586 36 δ1(0) = 1.0 {f} 194 53588 Ga.sub.1S.sub.1 0.972 36 δ1(0) = 1.0 {f} 194 53589 Ga.sub.1S.sub.1 1.21 36 δ1(0) = 1.0 {f} 194 53590 Ga.sub.1S.sub.1 1.06 36 δ1(0) = 1.0 {f} 194 59 Ga.sub.1S.sub.1 1.574 36 δ1(0) = 1.0 {f} 194 635244 Ga.sub.1S.sub.1 1.575 36 δ1(0) = 1.0 {f} 194 635251 Ga.sub.1S.sub.1 1.588 36 δ1(0) = 1.0 {f} 194 635254 Ga.sub.1S.sub.1 1.042 36 δ1(b) = 1.0 {f, e} 194 658768 Ga.sub.1S.sub.1 1.613 36 δ1(0) = 1.0 {f} 194 673912 Ga.sub.1S.sub.1 1.966 36 δ1(0) = 1.0 {f} 194 20237 Ga.sub.1Se.sub.1 1.175 36 δ1(0) = 1.0 {f} 194 41978 Ga.sub.1Se.sub.1 0.886 36 δ1(0) = 1.0 {f} 194 43540 Ga.sub.1Se.sub.1 0.886 36 δ1(0) = 1.0 {f} 194 63122 Ga.sub.1Se.sub.1 0.929 36 δ1(0) = 1.0 {f} 194 635369 Ga.sub.1Se.sub.1 0.913 36 δ1(0) = 1.0 {f} 194 635382 Ga.sub.1Se.sub.1 0.933 36 δ1(0) = 1.0 {f} 194 673913 Ga.sub.1Se.sub.1 1.048 36 δ1(0) = 1.0 {f} 194 673914 Ga.sub.1Te.sub.1 0.479 36 δ1(0) = 1.0 {f} 194 290428 Hf.sub.1N.sub.2 0.49 28 δ2(a) = −1.0 {d, e} 194 185172 In.sub.1Se.sub.1 0.479 36 δ1(0) = 1.0 {f} 194 430520 K.sub.2Se.sub.2 0.887 60 δ1(d) = 1.0 {a, c, f} 194 73174 K.sub.2Te.sub.2 0.483 60 δ1(d) = 1.0 {a, c, f} 194 96741 K.sub.2Te.sub.2 0.428 60 δ1(d) = 1.0 {a, c, f} 194 152183 Li.sub.2O.sub.2 1.977 28 δ1(d) = 1.0 {a, c, f} 194 180557 Li.sub.2O.sub.2 1.562 28 δ1(d) = 1.0 {a, c, f} 194 25530 Li.sub.2O.sub.2 2.254 28 δ1(d) = 1.0 {a, c, f} 194 674574 Mo.sub.1N.sub.2 0.896 32 δ2(a) = −1.0, δ1(0) = 1.0 {d, e} 194 105091 Mo.sub.1S.sub.2 0.737 36 δ1(b) = 1.0, δ1(e) = 2.0 {f, c} 194 191305 Mo.sub.1S.sub.2 0.888 36 δ1(b) = 1.0, δ1(e) = 2.0 {f, c} 194 196994 Mo.sub.1S.sub.2 0.847 36 δ1(b) = 1.0, δ1(e) = 2.0 {f, d} 194 24000 Mo.sub.1S.sub.2 0.869 36 δ1(b) = 1.0, δ1(e) = 2.0 {f, c} 194 31067 Mo.sub.1S.sub.2 1.002 36 δ1(b) = 1.0, δ1(e) = 2.0 {f, c} 194 49801 Mo.sub.1S.sub.2 0.861 36 δ1(b) = 1.0, δ1(e) = 2.0 {f, c} 194 601647 Mo.sub.11S.sub.2 0.848 36 δ1(b) = 1.0, δ1(e) = 2.0 {f, c} 194 644245 Mo.sub.1S.sub.2 0.868 36 δ1(b) = 1.0, δ1(e) = 2.0 {f, c} 194 644246 Mo.sub.1S.sub.2 0.87 36 δ1(b) = 1.0, δ1(e) = 2.0 {f, c} 194 644250 Mo.sub.1S.sub.2 0.866 36 δ1(b) = 1.0, δ1(e) = 2.0 {f, c} 194 644259 Mo.sub.1S.sub.2 0.906 36 δ1(d) = 1.0 {f, b} 194 674349 Mo.sub.1S.sub.2 0.878 36 δ1(b) = 1.0, δ1(e) = 2.0 {f, c} 194 674355 Mo.sub.1S.sub.2 0.843 36 δ1(b) = 1.0, δ1(e) = 2.0 {f, c} 194 674361 Mo.sub.1S.sub.2 0.85 36 δ1(b) = 1.0, δ1(e) = 2.0 {f, c} 194 674383 Mo.sub.1S.sub.2 0.807 36 δ1(b) = 1.0, δ1(e) = 2.0 {f, c} 194 84180 Mo.sub.1S.sub.2 0.847 36 δ1(b) = 1.0, δ1(e) = 2.0 {f, d} 194 95569 Mo.sub.1S.sub.2 0.888 36 δ1(b) = 1.0, δ1(e) = 2.0 {f, c} 194 95570 Mo.sub.1S.sub.2 0.906 36 δ1(b) = 1.0, δ1(e) = 2.0 {f, c} 194 167357 Mo.sub.1Se.sub.2 0.861 36 δ1(b) = 1.0, δ1(e) = 2.0 {f, c} 194 191306 Mo.sub.1Se.sub.2 0.843 36 δ1(b) = 1.0, δ1(e) = 2.0 {f, c} 194 49800 Mo.sub.1Se.sub.2 0.822 36 δ1(b) = 1.0, δ1(e) = 2.0 {f, c} 194 601045 Mo.sub.1Se.sub.2 0.812 36 δ1(b) = 1.0, δ1(e) = 2.0 {f, d} 194 644334 Mo.sub.1Se.sub.2 0.863 36 δ1(b) = 1.0, δ1(e) = 2.0 {f, c} 194 644335 Mo.sub.1Se.sub.2 0.82 36 δ1(b) = 1.0, δ1(e) = 2.0 {f, c} 194 644340 Mo.sub.1Se.sub.2 0.826 36 δ1(b) = 1.0, δ1(e) = 2.0 {f, c} 194 644346 Mo.sub.1Se.sub.2 0.856 36 δ1(d) = 1.0 {f, b} 194 674350 Mo.sub.1Se.sub.2 0.828 36 δ1(b) = 1.0, δ1(e) = 2.0 {f, c} 194 674356 Mo.sub.1Se.sub.2 0.812 36 δ1(b) = 1.0, δ1(e) = 2.0 {f, c} 194 674362 Mo.sub.1Se.sub.2 0.814 36 δ1(b) = 1.0, δ1(e) = 2.0 {f, c} 194 15431 Mo.sub.1Te.sub.2 0.72 36 δ1(b) = 1.0, δ1(e) = 2.0 {f, c} 194 24155 Mo.sub.1Te.sub.2 0.699 36 δ1(b) = 1.0, δ1(e) = 2.0 {f, c} 194 644476 Mo.sub.1Te.sub.2 0.711 36 δ1(b) = 1.0, δ1(e) = 2.0 {f, c} 194 644481 Mo.sub.1Te.sub.2 0.715 36 δ1(b) = 1.0, δ1(e) = 2.0 {f, c} 194 674351 Mo.sub.1Te.sub.2 0.66 36 δ1(b) = 1.0, δ1(e) = 2.0 {f, c} 194 674357 Mo.sub.1Te.sub.2 0.656 36 δ1(b) = 1.0, δ1(e) = 2.0 {f, c} 194 674363 Mo.sub.1Te.sub.2 0.662 36 δ1(b) = 1.0, δ1(e) = 2.0 {f, c} 194 290434 N.sub.2W.sub.1 1.031 32 δ2(a) = −1.0, δ1(c) = 1.0 {d, e} 194 644958 Na.sub.1S.sub.1 1.263 28 δ1(d) = 1.0 {a, c, f} 194 43407 Na.sub.2S.sub.2 1.263 28 δ1(d) = 1.0 {a, c, f} 194 644955 Na.sub.2S.sub.2 1.212 28 δ1(d) = 1.0 {a, c, f} 194 73173 Na.sub.2S.sub.2 1.234 28 δ1(d) = 1.0 {a, c, f} 194 43408 Na.sub.2Se.sub.2 0.573 28 δ1(d) = 1.0 {a, c, f} 194 196773 S.sub.2W.sub.1 0.918 36 δ1(b) = 1.0, δ1(e) = 2.0 {f, c} 194 196993 S.sub.2W.sub.1 0.825 36 δ1(b) = 1.0, δ1(e) = 2.0 {f, d} 194 202366 S.sub.2W.sub.1 0.94 36 δ1(b) = 1.0, δ1(e) = 2.0 {f, c} 194 56014 S.sub.2W.sub.1 1.006 36 δ1(b) = 1.0, δ1(e) = 2.0 {f, d} 194 651384 S.sub.2W.sub.1 0.823 36 δ1(b) = 1.0, δ1(e) = 2.0 {f, d} 194 651387 S.sub.2W.sub.1 0.813 36 δ1(b) = 1.0, δ1(e) = 2.0 {f, d} 194 674352 S.sub.2W.sub.1 0.959 36 δ1(b) = 1.0, δ1(e) = 2.0 {f, c} 194 674358 S.sub.2W.sub.1 0.924 36 δ1(b) = 1.0, δ1(e) = 2.0 {f, c} 194 674364 S.sub.2W.sub.1 0.957 36 δ1(b) = 1.0, δ1(e) = 2.0 {f, c} 194 84181 S.sub.2W.sub.1 0.825 36 δ1(b) = 1.0, δ1(e) = 2.0 {f, d} 194 196992 Se.sub.2W.sub.1 0.867 36 δ1(b) = 1.0, δ1(e) = 2.0 {f, d} 194 40752 Se.sub.2W.sub.1 0.881 36 δ1(b) = 1.0, δ1(e) = 2.0 {f, c} 194 652167 Se.sub.2W.sub.1 0.863 36 δ1(b) = 1.0, δ1(e) = 2.0 {f, d} 194 652170 Se.sub.2W.sub.1 0.869 36 δ1(b) = 1.0, δ1(e) = 2.0 {f, d} 194 674353 Se.sub.2W.sub.1 0.889 36 δ1(b) = 1.0, δ1(e) = 2.0 {f, c} 194 674359 Se.sub.2W.sub.1 0.862 36 δ1(b) = 1.0, δ1(e) = 2.0 {f, c} 194 674365 Se.sub.2W.sub.1 0.872 36 δ1(b) = 1.0, δ1(e) = 2.0 {f, c} 194 84182 Se.sub.2W.sub.1 0.867 36 δ1(b) = 1.0, δ1(e) = 2.0 {f, d} 194 653170 Te.sub.2W.sub.1 0.564 36 δ1(b) = 1.0, δ1(e) = 2.0 {f, c} 194 674354 Te.sub.2W.sub.1 0.611 36 δ1(b) = 1.0, δ1(e) = 2.0 {f, c} 194 674360 Te.sub.2W.sub.1 0.582 36 δ1(b) = 1.0, δ1(e) = 2.0 {f, c} 194 674366 Te.sub.2W.sub.1 0.613 36 δ1(b) = 1.0, δ1(e) = 2.0 {f, c} 204 201140 N.sub.2O.sub.4 2.83 102 δ1(b) = −1.0 {d, g} 204 201141 N.sub.2O.sub.4 2.85 102 δ1(b) = −1.0 {d, g} 204 201142 N.sub.2O.sub.4 2.873 102 δ1(b) = −1.0 {d, g} 204 29047 N.sub.2O.sub.4 3.597 102 δ1(b) = −1.0 {d, g} 204 52347 N.sub.2O.sub.4 2.321 102 δ1(b) = −1.0 {e, g} 205 196823 As.sub.2Pt.sub.1 0.252 80 δ2(b) = −1.0 {a, c} 205 24156 As.sub.2Pt.sub.1 0.345 80 δ2(b) = −1.0 {a, c} 205 24203 As.sub.2Pt.sub.1 0.225 80 δ2(b) = −1.0 {a, c} 205 38428 As.sub.2Pt.sub.1 0.243 80 δ2(b) = −1.0 {a, c} 205 43104 As.sub.2Pt.sub.1 0.252 80 δ2(b) = −1.0 {a, c} 205 52375 As.sub.2Pt.sub.1 0.249 80 δ2(b) = −1.0 {a, c} 205 611228 As.sub.2Pt.sub.1 0.25 80 δ2(b) = −1.0 {a, c} 205 611230 As.sub.2Pt.sub.1 0.307 80 δ2(b) = −1.0 {a, c} 205 109339 Cd.sub.1O.sub.2 1.45 96 δ2(a) = −1.0 {c, b} 205 36151 Cd.sub.1O.sub.2 1.392 96 δ2(b) = −1.0 {a, c} 205 60764 Cd.sub.1O.sub.2 1.392 96 δ2(b) = −1.0 {a, c} 205 620201 Cd.sub.1O.sub.2 1.399 96 δ2(b) = −1.0 {a, c} 205 620305 Cd.sub.1S.sub.2 0.693 96 δ2(b) = −1.0 {a, c} 205 620416 Cd.sub.1Se.sub.2 0.5 96 δ2(b) = −1.0 {a, c} 205 109377 Fe.sub.1S.sub.2 0.598 80 δ2(b) = −1.0 {a, c} 205 15012 Fe.sub.1S.sub.2 0.512 80 δ2(b) = −1.0 {a, c} 205 316 Fe.sub.1S.sub.2 0.614 80 δ2(b) = −1.0 {a, c} 205 43716 Fe.sub.1S.sub.2 0.511 80 δ2(b) = −1.0 {a, c} 205 52372 Fe.sub.1S.sub.2 0.709 80 δ2(b) = −1.0 {a, c} 205 53529 Fe.sub.1S.sub.2 0.708 80 δ2(b) = −1.0 {a, c} 205 53935 Fe.sub.1S.sub.2 0.132 80 δ2(b) = −1.0 {a, c} 205 633254 Fe.sub.1S.sub.2 0.61 80 δ2(b) = −1.0 {a, c} 205 633270 Fe.sub.1S.sub.2 0.61 80 δ2(b) = −1.0 {a, c} 205 633273 Fe.sub.1S.sub.2 0.512 80 δ2(b) = −1.0 {a, c} 205 633274 Fe.sub.1S.sub.2 0.61 80 δ2(b) = −1.0 {a, c} 205 633287 Fe.sub.1S.sub.2 0.29 80 δ2(b) = −1.0 {a, c} 205 633288 Fe.sub.1S.sub.2 0.5 80 δ2(b) = −1.0 {a, c} 205 633289 Fe.sub.1S.sub.2 0.709 80 δ2(b) = −1.0 {a, c} 205 633293 Fe.sub.1S.sub.2 0.61 80 δ2(b) = −1.0 {a, c} 205 656511 Fe.sub.1S.sub.2 0.61 80 δ2(b) = −1.0 {a, c} 205 633475 Fe.sub.1Se.sub.2 0.408 80 δ2(b) = −1.0 {a, c} 205 633869 Fe.sub.1Te.sub.2 0.034 80 δ2(b) = −1.0 {a, c} 205 290429 Hf.sub.1N.sub.2 0.882 56 δ2(b) = −1.0 {a, c} 205 35479 Mg.sub.1O.sub.2 3.905 56 δ2(a) = −1.0 {c, b} 205 41732 Mg.sub.1O.sub.2 3.942 56 δ2(b) = −1.0 {a, c} 205 642815 Mg.sub.1Se.sub.2 1.566 56 δ2(b) = −1.0 {a, c} 205 30390 Mg.sub.1Te.sub.2 1.201 56 δ2(b) = −1.0 {a, c} 205 41733 Mg.sub.1Te.sub.2 1.094 56 δ2(b) = −1.0 {a, c} 205 642881 Mg.sub.1Te.sub.2 1.059 56 δ2(b) = −1.0 {a, c} 205 191245 N.sub.2Pd.sub.1 0.643 80 δ2(b) = −1.0 {a, c} 205 166462 N.sub.2Pt.sub.1 1.089 80 δ2(b) = −1.0 {a, c} 205 169857 N.sub.2Pt.sub.1 1.477 80 δ2(b) = −1.0 {a, c} 205 290447 N.sub.2Pt.sub.1 1.231 80 δ2(b) = −1.0 {a, c} 205 60763 O.sub.2Zn.sub.1 2.322 96 δ2(b) = −1.0 {a, c} 205 647668 O.sub.2Zn.sub.1 2.328 96 δ2(b) = −1.0 {a, c} 205 24187 Os.sub.1S.sub.2 0.086 80 δ2(b) = −1.0 {a, c} 205 300224 Os.sub.1S.sub.2 0.051 80 δ2(b) = −1.0 {a, c} 205 56020 Os.sub.1S.sub.2 1.517 80 δ2(a) = −1.0 {c, b} 205 647749 Os.sub.1S.sub.2 0.035 80 δ2(b) = −1.0 {a, c} 205 647750 Os.sub.1S.sub.2 0.029 80 δ2(b) = −1.0 {a, c} 205 24202 Os.sub.1Se.sub.2 0.104 80 δ2(b) = −1.0 {a, c} 205 647826 Os.sub.1Te.sub.2 0.588 80 δ2(b) = −1.0 {a, c} 205 647829 Os.sub.1Te.sub.2 0.583 80 δ2(b) = −1.0 {a, c} 205 647831 Os.sub.1Te.sub.2 0.578 80 δ2(b) = −1.0 {a, c} 205 647832 Os.sub.1Te.sub.2 0.581 80 δ2(b) = −1.0 {a, c} 205 15026 P.sub.2Pt.sub.1 1.114 80 δ2(b) = −1.0 {a, c} 205 43103 P.sub.2Pt.sub.1 1.002 80 δ2(b) = −1.0 {a, c} 205 602147 P.sub.2Pt.sub.1 1.166 80 δ2(b) = −1.0 {a, c} 205 647967 P.sub.2Pt.sub.1 1.116 80 δ2(b) = −1.0 {a, c} 205 647970 P.sub.2Pt.sub.1 0.983 80 δ2(b) = −1.0 {a, c} 205 647971 P.sub.2Pt.sub.1 0.985 80 δ2(b) = −1.0 {a, c} 205 71029 P.sub.2Pt.sub.1 1.119 80 δ2(b) = −1.0 {a, c} 205 74514 P.sub.2Pt.sub.1 1.126 80 δ2(b) = −1.0 {a, c} 205 24186 Ru.sub.1S.sub.2 0.59 80 δ2(b) = −1.0 {a, c} 205 41996 Ru.sub.1S.sub.2 0.069 80 δ2(b) = −1.0 {a, c} 205 52374 Ru.sub.1S.sub.2 0.919 80 δ2(a) = −1.0 {c, b} 205 56019 Ru.sub.1S.sub.2 1.823 80 δ2(b) = −1.0 {a, c} 205 600680 Ru.sub.1S.sub.2 0.705 80 δ2(b) = −1.0 {a, c} 205 604472 Ru.sub.1S.sub.2 0.398 80 δ2(b) = −1.0 {a, c} 205 650577 Ru.sub.1S.sub.2 0.705 80 δ2(b) = −1.0 {a, c} 205 650579 Ru.sub.1S.sub.2 0.705 80 δ2(b) = −1.0 {a, c} 205 650581 Ru.sub.1S.sub.2 0.705 80 δ2(b) = −1.0 {a, c} 205 657507 Ru.sub.1S.sub.2 0.705 80 δ2(b) = −1.0 {a, c} 205 68472 Ru.sub.1S.sub.2 0.738 80 δ2(b) = −1.0 {a, c} 205 24201 Ru.sub.1Se.sub.2 0.416 80 δ2(b) = −1.0 {a, c} 205 650607 Ru.sub.1Se.sub.2 0.415 80 δ2(a) = −1.0 {c, b} 205 650609 Ru.sub.1Se.sub.2 0.416 80 δ2(b) = −1.0 {a, c} 205 650610 Ru.sub.1Se.sub.2 0.32 80 δ2(b) = −1.0 {a, c} 205 650611 Ru.sub.1Se.sub.2 0.323 80 δ2(b) = −1.0 {a, c} 205 657508 Ru.sub.1Se.sub.2 0.415 80 δ2(b) = −1.0 {a, c} 205 68473 Ru.sub.1Se.sub.2 0.383 80 δ2(b) = −1.0 {a, c} 205 24188 Ru.sub.1Te.sub.2 0.139 80 δ2(b) = −1.0 {a, c} 205 650710 Ru.sub.1Te.sub.2 0.061 80 δ2(b) = −1.0 {a, c} 205 650714 Ru.sub.1Te.sub.2 0.072 80 δ2(b) = −1.0 {a, c} 205 650719 Ru.sub.1Te.sub.2 0.071 80 δ2(b) = −1.0 {a, c} 205 650721 Ru.sub.1Te.sub.2 0.124 80 δ2(b) = −1.0 {a, c} 205 650722 Ru.sub.1Te.sub.2 0.134 80 δ2(b) = −1.0 {a, c} 205 65169 Ru.sub.1Te.sub.2 0.076 80 δ2(b) = −1.0 {a, c} 205 659137 Ru.sub.1Te.sub.2 0.072 80 δ2(b) = −1.0 {a, c} 205 651447 S.sub.2Zn.sub.1 1.263 96 δ2(b) = −1.0 {a, c} 205 652213 Se.sub.2Zn.sub.1 0.695 96 δ2(b) = −1.0 {a, c} 216 672039 Ag.sub.1Br.sub.1 1.02 18 δ1(d) = −1.0 {a, c} 216 672042 Ag.sub.1Cl.sub.1 1.138 18 δ1(d) = −1.0 {a, c} 216 670429 Ag.sub.1I.sub.1 1.142 18 δ1(d) = −1.0 {a, c} 216 670858 B.sub.4Fe.sub.1 0.676 20 δ1(b) = 1.0 {a, e} 216 616395 Be.sub.5Pt.sub.1 0.006 20 δ1(b) = 1.0 {a, c, e} 216 30090 Br.sub.1Cu.sub.1 0.464 18 δ1(d) = −1.0 {a, c} 216 670437 Br.sub.1Cu.sub.1 0.4 18 δ1(d) = −1.0 {a, c} 216 186009 Cd.sub.1S.sub.1 1.099 18 δ1(d) = −1.0 {c, b} 216 670446 Cd.sub.1S.sub.1 1.024 18 δ1(d) = −1.0 {a, c} 216 670449 Cd.sub.1Se.sub.1 0.388 18 δ1(d) = −1.0 {a, c} 216 290011 Cd.sub.1Te.sub.1 0.321 18 δ1(d) = −1.0 {c, b} 216 670452 Cd.sub.1Te.sub.1 0.315 18 δ1(d) = −1.0 {a, c} 216 93944 Cd.sub.1Te.sub.1 0.509 18 δ1(d) = −1.0 {c, b} 216 23988 Cl.sub.1Cu.sub.1 0.395 18 δ1(d) = −1.0 {c, b} 216 670453 Cl.sub.1Cu.sub.1 0.444 18 δ1(d) = −1.0 {a, c} 216 157431 Cu.sub.1I.sub.1 0.996 18 δ1(d) = −1.0 {a, c} 216 163427 Cu.sub.1I.sub.1 1.005 18 δ1(d) = −1.0 {a, c} 216 163436 Cu.sub.1I.sub.1 1.002 18 δ1(d) = −1.0 {a, c} 216 24771 Cu.sub.1I.sub.1 0.89 18 δ1(d) = −1.0 {c, b} 216 30085 Cu.sub.1I.sub.1 1.029 18 δ1(d) = −1.0 {a, c} 216 33724 Cu.sub.1I.sub.1 1.027 18 δ1(d) = −1.0 {a, c} 216 670438 Cu.sub.1I.sub.1 0.927 18 δ1(d) = −1.0 {a, c} 216 76611 Cu.sub.1I.sub.1 0.991 18 δ1(d) = −1.0 {a, c} 216 629316 Cu.sub.5Tb.sub.1 0.015 74 δ1(d) = −1.0 {a, c, e} 216 670493 O.sub.1Zn.sub.1 0.612 18 δ1(d) = −1.0 {a, c} 216 670479 S.sub.1Sn.sub.1 0.134 10 δ1(d) = 1.0 {a, c} 216 601048 S.sub.1Zn.sub.1 2.119 18 δ1(d) = −1.0 {a, c} 216 651445 S.sub.1Zn.sub.1 2.096 18 δ1(d) = −1.0 {a, c} 216 651451 S.sub.1Zn.sub.1 1.938 18 δ1(d) = −1.0 {a, c} 216 651454 S.sub.1Zn.sub.1 2.097 18 δ1(d) = −1.0 {a, c} 216 651455 S.sub.1Zn.sub.1 2.097 18 δ1(d) = −1.0 {a, c} 216 651457 S.sub.1Zn.sub.1 2.096 18 δ1(d) = −1.0 {a, c} 216 651458 S.sub.1Zn.sub.1 2.109 18 δ1(d) = −1.0 {a, c} 216 670469 S.sub.1Zn.sub.1 1.959 18 δ1(d) = −1.0 {a, c} 216 167830 Se.sub.1Zn.sub.1 1.153 18 δ1(d) = −1.0 {c, b} 216 652209 Se.sub.1Zn.sub.1 1.201 18 δ1(d) = −1.0 {a, c} 216 652210 Se.sub.1Zn.sub.1 1.178 18 δ1(d) = −1.0 {a, c} 216 652211 Se.sub.1Zn.sub.1 0.982 18 δ1(d) = −1.0 {a, c} 216 652212 Se.sub.1Zn.sub.1 1.208 18 δ1(d) = −1.0 {a, c} 216 652214 Se.sub.1Zn.sub.1 1.204 18 δ1(d) = −1.0 {a, c} 216 652215 Se.sub.1Zn.sub.1 1.197 18 δ1(d) = −1.0 {a, c} 216 652216 Se.sub.1Zn.sub.1 1.195 18 δ1(d) = −1.0 {a, c} 216 652220 Se.sub.1Zn.sub.1 1.195 18 δ1(d) = −1.0 {a, c} 216 652221 Se.sub.1Zn.sub.1 1.201 18 δ1(d) = −1.0 {a, c} 216 652222 Se.sub.1Zn.sub.1 1.198 18 δ1(d) = −1.0 {a, c} 216 652223 Se.sub.1Zn.sub.1 1.193 18 δ1(d) = −1.0 {a, c} 216 652224 Se.sub.1Zn.sub.1 1.197 18 δ1(d) = −1.0 {a, c} 216 652226 Se.sub.1Zn.sub.1 1.21 18 δ1(d) = −1.0 {a, c} 216 652227 Se.sub.1Zn.sub.1 1.238 18 δ1(d) = −1.0 {a, c} 216 652228 Se.sub.1Zn.sub.1 1.238 18 δ1(d) = −1.0 {a, c} 216 670495 Se.sub.1Zn.sub.1 1.026 18 δ1(d) = −1.0 {a, c} 216 52513 Te.sub.1Zn.sub.1 0.986 18 δ1(d) = −1.0 {a, c} 216 653193 Te.sub.1Zn.sub.1 0.986 18 δ1(d) = −1.0 {a, c} 216 653194 Te.sub.1Zn.sub.1 0.992 18 δ1(d) = −1.0 {a, c} 216 653195 Te.sub.1Zn.sub.1 0.994 18 δ1(d) = −1.0 {a, c} 216 653196 Te.sub.1Zn.sub.1 0.982 18 δ1(d) = −1.0 {a, c} 216 653198 Te.sub.1Zn.sub.1 0.992 18 δ1(d) = −1.0 {a, c} 216 653199 Te.sub.1Zn.sub.1 0.992 18 δ1(d) = −1.0 {a, c} 216 653205 Te.sub.1Zn.sub.1 1.017 18 δ1(d) = −1.0 {a, c} 216 670486 Te.sub.1Zn.sub.1 0.76 18 δ1(d) = −1.0 {a, c} 221 26753 B6Ca.sub.1 0.213 20 δ1(a) = −1.0, δ2(d) = −1.0 {e, b} 221 44985 B6Ca.sub.1 0.412 20 δ1(b) = −1.0, δ2(c) = −1.0 {a, f} 221 655040 B6Ca.sub.1 0.213 20 δ1(b) = −1.0, δ2(c) = −1.0 {f, a} 221 20240 B6Si.sub.1 0.435 22 δ1(b) = −1.0, δ2(c) = −1.0 {a, f} 221 659503 B6Sr.sub.1 0.164 28 δ1(b) = −1.0, δ2(c) = −1.0 {f, a} 227 236959 B.sub.1Li.sub.1 1.454 8 δ2(c) = −1.0 {a, b} 227 162620 O.sub.2Si.sub.1 5.436 32 δ1(d) = 1.0, δ2(d) = 1.0 {a, c} 227 170476 O.sub.2Si.sub.1 6.021 128 δ1(c) = 1.0, δ2(c) = 1.0 {f, d, e} 227 35536 O.sub.2Si.sub.1 5.668 32 δ1(d) = 1.0, δ2(d) = 1.0 {a, c} 227 77458 O.sub.2Si.sub.1 5.671 32 δ1(d) = 1.0, δ2(d) = 1.0 {a, c} 227 77459 O.sub.2Si.sub.1 5.67 32 δ1(d) = 1.0, δ2(d) = 1.0 {a, c} 227 77460 O.sub.2Si.sub.1 5.669 32 δ1(d) = 1.0, δ2(d) = 1.0 {a, c} 2 59173 Al.sub.2Cd.sub.2Cl.sub.8 2.978 86 δ1(f) = 1.0 {i} 2 62038 Al.sub.2Cd.sub.2Cl.sub.8 3.048 86 δ1(g) = 1.0 {i} 2 426520 Al.sub.4Cl.sub.14Te.sub.4 0.032 134 δ1(a) = 1.0 {i} 2 43508 As.sub.1Fe.sub.1S.sub.1 0.225 76 δ1(e) = 1.0, δ1(g) = 1.0 {i} 2 43509 As.sub.1Fe.sub.1S.sub.1 0.118 76 δ1(f) = 1.0, δ1(g) = 1.0 {i} 2 63129 Au.sub.1Br.sub.8Te.sub.1 1.046 146 δ1(c) = 1.0 {i} 2 98522 B.sub.18Cs.sub.8S.sub.18 3.127 234 δ1(a) = −1.0 {i} 2 98521 B.sub.18Rb.sub.8S.sub.18 3.084 234 δ1(a) = −1.0 {i} 2 410757 B.sub.18Rb.sub.8Se.sub.18 2.270 234 δ1(a) = −1.0 {i} 2 432662 B.sub.8Br6P.sub.4 3.104 86 δ1(h) = 1.0 {i} 2 83806 Bi.sub.2Br.sub.8Te.sub.4 1.061 90 δ1(c) = 1.0 {i} 2 391157 Bi.sub.4Cl.sub.16Te.sub.14 0.571 216 δ1(b) = 1.0, δ1(e) = 1.0 {i} 2 426521 Bi6Cl.sub.20Te.sub.4 1.363 194 δ1(f) = 1.0 {i} 2 83805 Bi6Cl.sub.20Te.sub.4 1.348 194 δ1(b) = 1.0 {i} 2 401905 Br.sub.12Ta.sub.2Te.sub.4 0.961 118 δ1(f) = 1.0 {i} 2 82245 Br.sub.1Mo.sub.1Te.sub.4 0.809 74 δ1(a) = 1.0 {i} 2 424413 Br.sub.2Nb.sub.1S.sub.2 1.403 78 δ1(a) = 1.0 {i} 2 202821 Br.sub.2Nb.sub.1Se.sub.2 0.919 78 δ1(a) = 1.0 {i} 2 165428 C.sub.22Co6O.sub.18 1.419 250 δ1(h) = −1.0 {i} 2 415092 C.sub.2I.sub.10La6 0.201 144 δ1(a) = 2.0 {i} 2 109830 C.sub.2O.sub.4Pb.sub.1 2.607 72 δ1(e) = 1.0, δ1(g) = 1.0 {i} 2 109831 C.sub.2O.sub.4Pb.sub.1 2.720 72 δ1(e) = 1.0, δ1(g) = 1.0 {i} 2 401907 Cl.sub.12Ta.sub.2Te.sub.4 1.149 118 δ1(f) = 1.0 {i} 2 410188 Cl.sub.18P.sub.2Re.sub.2 0.009 150 δ1(h) = −1.0 {i} 2 10483 Cl.sub.2Nb.sub.1Se.sub.2 0.947 78 δ1(a) = 1.0 {i} 2 416429 Cl.sub.5O.sub.4Re.sub.2 0.019 146 δ1(e) = 1.0 {i} 2 401589 Cl6Hf.sub.1Te.sub.4 1.163 70 δ1(h) = 1.0 {a, i} 2 413579 Cl.sub.8Ga.sub.2Hg.sub.2 3.055 86 δ1(c) = 1.0 {i} 2 415580 Cs.sub.1Sb.sub.2Se.sub.4 1.032 86 δ1(a) = 1.0 {i} 2 61220 Cs.sub.1Sb.sub.2Se.sub.4 1.020 86 δ1(c) = 1.0 {i} 2 73008 Cs.sub.2S6Sn.sub.2 1.846 62 δ1(c) = 1.0 {i} 2 67976 Cs.sub.2S.sub.8Sb.sub.4 1.283 86 δ1(c) = 1.0 {i} 2 402842 Cs.sub.2Se6Sn.sub.2 1.193 62 δ1(c) = 1.0 {i} 2 408148 Cs.sub.2Se6Sn.sub.2 1.180 62 δ1(g) = 1.0 {i} 2 418434 Cs.sub.4P.sub.2Se.sub.10 1.524 106 δ1(h) = 1.0 {i} 2 430940 Cu.sub.4P.sub.3Se.sub.4 0.935 166 δ1(b) = 1.0, δ1(c) = 1.0, δ1(f) = 1.0 {i} 2 63301 F.sub.12I.sub.4Sb.sub.2 0.573 122 δ1(a) = −1.0 {i} 2 201222 F.sub.12Sb.sub.2Te.sub.4 1.064 118 δ1(c) = 1.0 {i} 2 35676 Ge.sub.1Li.sub.1Te.sub.2 0.342 102 δ1(g) = 1.0 {d, b, i} 2 49658 Ge.sub.2Te6Tl6 0.468 124 δ1(c) = 1.0, δ1(f) = 1.0 {i} 2 82242 Hg.sub.1O.sub.3V.sub.1 1.825 70 δ1(f) = 1.0 {i} 2 2564 Hg.sub.2P.sub.2S6 1.792 70 δ1(h) = 1.0 {i} 2 639130 Hg.sub.2P.sub.2S6 1.828 70 δ1(h) = 1.0 {i} 2 78371 I.sub.12Nb.sub.2Te.sub.8 0.525 158 δ1(h) = 1.0 {i} 2 67533 I.sub.1Ta.sub.1Te.sub.4 0.286 72 δ1(a) = 1.0, δ1(d) = 1.0 {i} 2 413858 In.sub.2O.sub.5P.sub.1 2.526 82 δ1(d) = 1.0 {i} 2 16972 K.sub.2O.sub.8S.sub.2 0.435 78 δ1(a) = 1.0 {i} 2 54024 K.sub.2O.sub.8S.sub.2 3.750 78 δ1(c) = 1.0 {i} 2 402886 K.sub.2Sb.sub.4Se.sub.8 1.088 86 δ1(h) = 1.0 {i} 2 30535 La6O.sub.18Re.sub.4 0.137 202 δ1(d) = −1.0 {i} 2 150688 Li.sub.1Mo.sub.1S.sub.2 0.988 76 δ1(d) = 1.0, δ1(e) = 1.0 {i} 2 95571 Li.sub.1Mo.sub.1S.sub.2 0.136 76 δ1(d) = 1.0, δ1(f) = 1.0 {i} 2 413932 Mo.sub.4N.sub.14Sr.sub.10 1.236 194 δ1(h) = 1.0 {i} 2 171374 Na.sub.2O.sub.8S.sub.2 3.839 62 δ1(f) = 1.0 {i} 2 402887 Rb.sub.2Sb.sub.4Se.sub.8 1.092 86 δ1(h) = 1.0 {i} 2 416310 Si.sub.2Te6Tl6 0.793 124 δ1(c) = 1.0, δ1(f) = 1.0 {i} 10 422527 As.sub.2Ga.sub.2Sr.sub.1 0.257 104 δ1(a) = −1.0, δ1(g) = −1.0 {c, d, n, m} 10 246004 C.sub.2Ca.sub.1O.sub.4 2.314 136 δ1(b) = −1.0, δ1(c) = −1.0, δ1(d) = −1.0, {o, m, l, n, j} δ1(h) = −1.0 10 246005 C.sub.2Ca.sub.1O.sub.4 2.259 136 δ1(a) = −1.0, δ1(e) = −1.0, δ1(f) = −1.0, {o, m, n, k, i} δ1(g) = −1.0 11 48168 Al.sub.2Na7Sb.sub.5 0.278 76 δ1(b) = 1.0 {f, e} 11 29261 Ba.sub.3P6Si.sub.4 0.353 152 δ1(a) = 1.0 {f, e} 11 411136 Bi.sub.9I.sub.3Rh.sub.2 0.198 168 δ1(a) = 1.0 {f, e} 11 10066 Cl7Nb.sub.3Se.sub.5 0.920 236 δ1(a) = 1.0 {f, e} 11 430682 Ir.sub.2Se.sub.5Sn.sub.1 0.202 208 δ1(a) = 1.0 {f, e} 11 249937 K.sub.4P.sub.8Te.sub.4 1.078 100 δ1(d) = 1.0 {f, e} 12 4164 Al.sub.1O.sub.4W.sub.1 1.116 66 δ1(a) = −1.0 {j, i, g} 12 39930 As.sub.1Cl.sub.2Hg.sub.2 1.642 172 δ1(b) = −1.0, δ1(c) = −1.0 {j, i} 12 37001 As.sub.2F.sub.12I.sub.4 0.525 122 δ1(a) = 1.0 {j, i} 12 420833 As.sub.3Ba.sub.2Cd.sub.2 0.026 118 δ1(a) = −1.0 {i} 12 262413 As.sub.3Sr.sub.2Zn.sub.2 0.091 118 δ1(a) = −1.0 {i} 12 82360 Ba.sub.5Cr.sub.1N.sub.5 0.112 162 δ1(c) = −1.0 {j, i, g} 12 406951 Bi.sub.4Br.sub.2Ru.sub.1 0.336 84 δ1(a) = −1.0, δ1(b) = −1.0 {i, g} 12 69975 Br.sub.10Te.sub.4Zr.sub.2 1.043 102 δ1(d) = −1.0 {h, j, i, g} 12 424414 Br.sub.2Nb.sub.1S.sub.2 1.313 78 δ1(a) = −1.0 {j, i, g} 12 202822 Br.sub.2Nb.sub.1Se.sub.2 0.841 78 δ1(a) = −1.0 {j, i, g} 12 672450 C.sub.1B.sub.2O.sub.2 4.656 44 δ1(f) = 1.0 {i} 12 2785 C.sub.1N.sub.1Th.sub.1 1.018 42 δ1(d) = 1.0 {i} 12 47225 C.sub.2Br.sub.2Gd.sub.2 0.002 58 δ1(b) = −1.0 {i} 12 72274 C.sub.2Br.sub.2Gd.sub.2 0.003 58 δ1(a) = −1.0 {i} 12 462 C.sub.2La.sub.2O.sub.2 3.038 42 δ1(a) = 1.0 {i} 12 154357 C.sub.4Cs.sub.2O.sub.4 2.718 58 δ1(a) = 1.0 {j, i} 12 154354 C.sub.4Li.sub.2O.sub.4 2.139 42 δ1(c) = 1.0 {h, i, g} 12 154356 C.sub.4O.sub.4Rb.sub.2 2.717 58 δ1(a) = 1.0 {j, i} 12 61393 Cd.sub.1P.sub.1S.sub.1 1.883 70 δ1(a) = −1.0 {j, i, g} 12 620232 Cd.sub.1P.sub.1S.sub.1 1.739 70 δ1(a) = −1.0 {j, i, g} 12 79556 Cd.sub.1P.sub.1S.sub.1 1.882 70 δ1(a) = −1.0 {j, i, g} 12 657320 Cd.sub.2P.sub.2S6 1.875 70 δ1(a) = −1.0 {j, i, g} 12 413701 Cd6Sb.sub.12Sr.sub.11 0.167 242 δ1(d) = −1.0 {a, i} 12 418887 Cd6Sb.sub.12Sr.sub.11 0.155 242 δ1(b) = −1.0 {c, i} 12 50594 Cl.sub.1Hg.sub.2P.sub.1 1.796 86 δ1(b) = −1.0, δ1(f) = 5.0 {h, e, i} 12 10484 Cl.sub.2Nb.sub.1S.sub.2 1.425 78 δ1(a) = −1.0 {j, i, g} 12 25631 Cl.sub.2Nb.sub.2S.sub.2 1.330 78 δ1(a) = −1.0 {j, i, g} 12 61392 Fe.sub.1P.sub.1S.sub.3 0.118 62 δ1(a) = −1.0 {j, i, g} 12 16252 Fe.sub.2P.sub.2S6 0.098 62 δ1(a) = −1.0 {j, i, g} 12 27307 Fe.sub.2P.sub.2S6 0.104 62 δ1(a) = −1.0 {j, i, g} 12 633080 Fe.sub.2P.sub.2S6 0.121 62 δ1(a) = −1.0 {j, i, g} 12 633087 Fe.sub.2P.sub.2S6 0.120 62 δ1(a) = −1.0 {j, i, g} 12 657319 Fe.sub.2P.sub.2S6 0.107 62 δ1(a) = −1.0 {j, i, g} 12 636776 Ge.sub.1K.sub.3S.sub.3 2.684 98 δ1(a) = −1.0 {h, j, e, i} 12 47111 Ge.sub.2K6S6 2.239 98 δ1(c) = −1.0 {f, j, i, g} 12 47112 Ge.sub.2K6Se6 2.145 98 δ1(a) = −1.0 {h, j, e, i} 12 69123 Hg6O7Si.sub.2 1.555 122 δ1(a) = −1.0 {j, b, i} 12 80109 I.sub.2O.sub.1Ta.sub.1 0.754 50 δ1(c) = −1.0 {i} 12 1238 K6Si.sub.2Te6 1.970 98 δ1(a) = −1.0 {h, j, e, i} 12 642729 Mg.sub.1P.sub.1S.sub.3 2.531 50 δ1(a) = −1.0 {j, i, g} 12 426907 Na.sub.4P.sub.2S6 2.758 50 δ1(a) = −1.0 {h, j, i, g} 12 602341 Ni.sub.1P.sub.1S.sub.3 0.005 66 δ1(a) = 1.0 {j, i, g} 12 646133 Ni.sub.1P.sub.1S.sub.3 0.004 66 δ1(a) = 1.0 {j, i, g} 12 646145 Ni.sub.1P.sub.1Se.sub.3 0.013 66 δ1(a) = 1.0 {j, i, g} 12 657314 Ni.sub.2P.sub.2S6 0.003 66 δ1(a) = 1.0 {j, i, g} 12 79557 P.sub.1S.sub.3Zn.sub.1 2.074 70 δ1(a) = −1.0 {j, i, g} 12 648076 P.sub.2S6V.sub.2 0.152 56 δ1(a) = −1.0, δ1(b) = −1.0, δ1(e) = 1.0 {j, i, g} 12 201933 P.sub.2S6Zn.sub.2 2.073 70 δ1(a) = −1.0 {j, i, g} 12 648084 P.sub.2S6Zn.sub.2 2.035 70 δ1(a) = −1.0 {j, i, g} 12 648089 P.sub.2S6Zn.sub.2 2.089 70 δ1(a) = −1.0 {j, i, g} 12 1434 P6S.sub.18Zn.sub.4 1.763 186 δ1(c) = −1.0 {j, i} 13 51511 Hg.sub.2Mo.sub.2O7 2.326 156 δ1(c) = 1.0 {e, g} 13 15005 Hg.sub.2O.sub.4S.sub.1 0.093 108 δ1(d) = 1.0 {e, g} 13 248726 Hg.sub.2O.sub.4S.sub.1 2.134 108 δ1(a) = 1.0 {f, g} 13 15006 Hg.sub.2O.sub.4Se.sub.1 0.272 108 δ1(a) = 1.0 {f, g} 13 410762 Hg.sub.4O7P.sub.2 1.841 200 δ1(b) = 1.0 {f, g} 13 60242 K.sub.2Mo.sub.8O.sub.16 0.066 324 δ1(b) = 1.0 {e, g} 14 71897 Ag.sub.5Ge.sub.1O.sub.4 0.631 332 δ1(b) = 1.0 {e} 14 72317 Ag.sub.5Ge.sub.1O.sub.4 0.631 332 δ1(b) = 1.0 {e} 14 10323 Al.sub.4Cl.sub.14Te.sub.4 1.490 268 δ1(b) = 1.0 {e} 14 26013 As.sub.1Cd.sub.2Cl.sub.2 1.171 172 δ1(b) = 1.0 {e} 14 109206 As.sub.1Fe.sub.1S.sub.1 0.626 76 δ1(a) = 1.0 {e} 14 15986 As.sub.1Fe.sub.1S.sub.1 0.128 76 δ1(a) = 1.0 {e} 14 185809 As.sub.1Fe.sub.1S.sub.1 0.572 76 δ1(c) = 1.0 {e} 14 62400 As.sub.1Fe.sub.1S.sub.1 0.134 76 δ1(d) = 1.0 {e} 14 610526 As.sub.1Fe.sub.1Se.sub.1 0.243 76 δ1(b) = 1.0 {e} 14 610529 As.sub.1Fe.sub.1Te.sub.1 0.541 76 δ1(a) = 1.0 {e} 14 611299 As.sub.1Ru.sub.1Te.sub.1 0.898 76 δ1(a) = 1.0 {e} 14 405235 As.sub.2Cs.sub.4Te6 0.816 164 δ1(b) = 1.0 {e} 14 35412 As.sub.2F.sub.12Hg.sub.4 1.005 284 δ1(c) = 1.0 {e} 14 427418 As.sub.2Hg6O.sub.10 1.493 284 δ1(c) = 1.0 {e} 14 2604 As.sub.2Hg6O.sub.8 0.545 260 δ1(d) = 1.0 {e} 14 413886 As.sub.2Hg6O.sub.8 0.614 260 δ1(a) = 1.0 {e} 14 62520 Ba.sub.1P.sub.3Pt.sub.2 0.112 180 δ1(a) = 1.0 {c, d, e} 14 412764 Ba.sub.2P.sub.2S6 3.205 132 δ1(d) = 1.0 {e} 14 412768 Ba.sub.2P.sub.2Se6 2.221 132 δ1(d) = 1.0 {e} 14 35342 Ba6P6Sn.sub.2 0.864 196 δ1(a) = 1.0 {e} 14 616892 Bi.sub.1Os.sub.1Se.sub.1 0.424 76 δ1(d) = 1.0 {e} 14 415090 Br.sub.14Ga.sub.4Te.sub.4 1.343 268 δ1(d) = 1.0 {e} 14 417407 Br.sub.3Hg.sub.2Te.sub.1 1.868 204 δ1(c) = 1.0 {e} 14 2328 C.sub.1D.sub.1K.sub.1O.sub.3 0.455 124 δ1(d) = −1.0 {e} 14 109600 C.sub.2Ag.sub.2O.sub.4 1.004 108 δ1(b) = 1.0 {e} 14 109601 C.sub.2Ag.sub.2O.sub.1 2.518 108 δ1(b) = 1.0 {e} 14 109602 C.sub.2Ag.sub.2O.sub.4 2.533 108 δ1(a) = 1.0 {e} 14 109603 C.sub.2Ag.sub.2O.sub.4 2.509 108 δ1(b) = 1.0 {e} 14 170029 C.sub.2Cd.sub.1O.sub.4 3.324 88 δ1(d) = 1.0 {a, e} 14 246777 C.sub.2H6O6 3.262 100 δ1(a) = 1.0 {e} 14 246778 C.sub.2H6O6 3.414 100 δ1(b) = 1.0 {e} 14 173993 C.sub.2Li.sub.2O.sub.4 3.609 68 δ1(d) = 1.0 {e} 14 171458 C.sub.2Na.sub.2O.sub.4 2.513 68 δ1(a) = 1.0 {e} 14 171459 C.sub.2Na.sub.2O.sub.4 3.486 68 δ1(a) = 1.0 {e} 14 56906 C.sub.2Na.sub.2O.sub.4 3.369 68 δ1(a) = 1.0 {e} 14 170127 C.sub.2O.sub.4Tl.sub.2 2.514 76 δ1(d) = 1.0 {e} 14 109665 C.sub.2O.sub.4Zn.sub.1 2.341 88 δ1(b) = 1.0 {a, e} 14 154355 C.sub.4Na.sub.2O.sub.4 2.563 84 δ1(a) = −1.0 {e} 14 152115 Ca.sub.1Mo.sub.5O.sub.8 0.193 320 δ1(c) = 1.0, δ1(d) = 1.0 {e} 14 280969 Ca.sub.1Mo.sub.5O.sub.8 0.142 320 δ1(a) = 1.0, δ1(b) = 1.0 {e} 14 405192 Ca.sub.2P.sub.2S6 3.158 100 δ1(d) = 1.0 {e} 14 412765 Ca.sub.2P.sub.2Se6 2.255 100 δ1(d) = 1.0 {e} 14 412647 Cd.sub.2Cl.sub.2P.sub.1 1.560 172 δ1(a) = 1.0 {e} 14 59914 Cl.sub.14Ga.sub.4Te.sub.4 1.477 268 δ1(b) = 1.0 {e} 14 109325 Cl.sub.3Cu.sub.1K.sub.1 0.017 164 δ1(b) = −1.0 {e} 14 28062 Cl.sub.3Mo.sub.1S.sub.2 1.319 156 δ1(d) = 1.0 {e} 14 416053 Cl7O.sub.3Re.sub.2 0.003 324 δ1(d) = 1.0 {e} 14 74940 Co.sub.1K.sub.2O.sub.2 0.036 156 δ1(d) = 1.0 {e} 14 16279 Cs.sub.1O.sub.5V.sub.2 0.006 196 δ1(a) = 1.0 {e} 14 850 Cs.sub.1O.sub.5V.sub.2 0.030 196 δ1(c) = 1.0 {e} 14 26726 Cs.sub.2O.sub.8S.sub.2 1.421 156 δ1(c) = 1.0 {e} 14 84993 Cs.sub.2Se6Te.sub.2 0.753 132 δ1(d) = 1.0 {e} 14 412900 Cu.sub.1La.sub.2S.sub.4 1.579 228 δ1(a) = 1.0 {e} 14 628243 Cu.sub.1La.sub.2S.sub.4 1.583 228 δ1(a) = 1.0 {e} 14 633086 Fe.sub.1P.sub.1S.sub.1 0.318 76 δ1(d) = 1.0 {e} 14 633093 Fe.sub.1P.sub.1Se.sub.1 0.320 76 δ1(b) = 1.0 {e} 14 24161 Fe.sub.1S.sub.1Sb.sub.1 0.452 76 δ1(b) = 1.0 {e} 14 633399 Fe.sub.1Sb.sub.1Se.sub.1 0.172 76 δ1(d) = 1.0 {e} 14 633405 Fe.sub.1Sb.sub.1Te.sub.1 0.189 76 δ1(b) = 1.0 {e} 14 61400 Ge.sub.2Na6Se6 2.071 100 δ1(d) = 1.0 {e} 14 47113 Ge.sub.2Na6Te6 1.396 100 δ1(b) = 1.0 {e} 14 170953 H.sub.4B.sub.2O.sub.4 4.792 136 δ1(a) = 1.0, δ1(b) = 1.0 {e} 14 74885 Hg.sub.1O.sub.4Re.sub.1 3.000 172 δ1(d) = 1.0 {e} 14 422481 Hg.sub.2N.sub.2O.sub.4 2.187 116 δ1(a) = 1.0 {e} 14 60055 Hg.sub.2N.sub.2O.sub.4 2.174 116 δ1(a) = 1.0 {e} 14 61064 Hg.sub.2N.sub.2O.sub.4 2.189 116 δ1(c) = 1.0 {e} 14 59156 Hg.sub.4N.sub.2O.sub.8 1.687 212 δ1(b) = 1.0 {e} 14 61101 Hg.sub.4N.sub.2O.sub.8 1.788 212 δ1(a) = 1.0 {e} 14 61437 Hg.sub.4N.sub.2O.sub.8 1.788 212 δ1(a) = 1.0 {e} 14 410760 Hg6O.sub.8P.sub.2 0.919 260 δ1(a) = 1.0 {e} 14 410761 Hg6O.sub.8P.sub.2 2.510 260 δ1(a) = 1.0 {e} 14 71516 I.sub.1Nb.sub.2Te6 0.458 276 δ1(b) = 1.0, δ1(c) = 1.0, δ1(d) = 1.0 {e} 14 1700 In.sub.4P6S.sub.18 1.562 300 δ1(b) = 1.0 {e} 14 418250 K.sub.4O.sub.8P.sub.2 3.529 188 δ1(d) = 1.0 {e} 14 410863 K6Se6Sn.sub.2 1.881 196 δ1(c) = 1.0 {e} 14 10109 K6Sn.sub.2Te6 1.426 196 δ1(a) = 1.0 {e} 14 80470 Mo.sub.5O.sub.8Sr.sub.1 0.095 352 δ1(c) = 1.0, δ1(d) = 1.0 {e} 14 15579 Na6Si.sub.2Te6 1.868 100 δ1(a) = 1.0 {e} 14 647714 Os.sub.1P.sub.1S.sub.1 0.814 76 δ1(d) = 1.0 {e} 14 647716 Os.sub.1P.sub.1Se.sub.1 0.740 76 δ1(c) = 1.0 {e} 14 647751 Os.sub.1S.sub.1Sb.sub.1 0.381 76 δ1(d) = 1.0 {e} 14 647759 Os.sub.1Sb.sub.1Se.sub.1 0.548 76 δ1(d) = 1.0 {e} 14 647762 Os.sub.1Sb.sub.1Te.sub.1 0.500 76 δ1(d) = 1.0 {e} 14 62230 P.sub.1Pb.sub.1Se.sub.3 1.591 108 δ1(c) = 1.0 {e} 14 648023 P.sub.1Ru.sub.1S.sub.1 0.510 76 δ1(c) = 1.0 {e} 14 648027 P.sub.1Ru.sub.1Se.sub.1 0.507 76 δ1(d) = 1.0 {e} 14 648028 P.sub.1Ru.sub.1Se.sub.1 0.515 76 δ1(d) = 1.0 {e} 14 655564 P.sub.1Se.sub.3Sn.sub.1 1.314 108 δ1(d) = 1.0 {e} 14 647906 P.sub.2Pb.sub.2S6 2.062 108 δ1(d) = 1.0 {e} 14 647911 P.sub.2Pb.sub.2Se6 1.573 108 δ1(d) = 1.0 {e} 14 647914 P.sub.2Pb.sub.2Se6 1.579 108 δ1(d) = 1.0 {e} 14 39232 P.sub.2S6Sn.sub.2 1.620 108 δ1(a) = 1.0 {e} 14 72835 P.sub.2S6Sn.sub.2 1.644 108 δ1(c) = 1.0 {e} 14 405191 P.sub.2S6Sr.sub.2 3.153 132 δ1(c) = 1.0 {e} 14 64659 P.sub.2Se6Sn.sub.2 1.315 108 δ1(d) = 1.0 {e} 14 648111 P.sub.2Se6Sn.sub.2 1.358 108 δ1(d) = 1.0 {e} 14 648112 P.sub.2Se6Sn.sub.2 0.127 108 δ1(d) = 1.0 {e} 14 648114 P.sub.2Se6Sn.sub.2 1.314 108 δ1(d) = 1.0 {e} 14 412766 P.sub.2Se6Sr.sub.2 2.224 132 δ1(d) = 1.0 {e} 14 62697 P.sub.2Se6Tl.sub.4 1.430 232 δ1(b) = 1.0, δ1(c) = 1.0 {e} 14 650583 Ru.sub.1S.sub.1Sb.sub.1 0.172 76 δ1(c) = 1.0 {e} 14 650594 Ru.sub.1Sb.sub.1Se.sub.1 0.296 76 δ1(d) = 1.0 {e} 14 650595 Ru.sub.1Sb.sub.1Te.sub.1 0.328 76 δ1(d) = 1.0 {e} 14 650596 Ru.sub.1Sb.sub.1Te.sub.1 0.355 76 δ1(d) = 1.0 {e} 15 24037 Ag.sub.2O.sub.2Pb.sub.1 1.006 76 δ1(c) = 5.0 {f, d, e, b} 15 65998 Ag.sub.2O.sub.2Pb.sub.1 0.997 76 δ1(c) = 5.0 {a, d, e, f} 15 59115 As.sub.1F6I.sub.5 1.290 164 δ1(d) = −1.0 {f, c, e} 15 75170 As.sub.3Br.sub.1Cd.sub.2 1.311 92 δ1(a) = 1.0 {f, e} 15 75169 As.sub.3Br.sub.1Hg.sub.2 1.182 92 δ1(a) = 1.0 {f, e} 15 40449 As.sub.3Cd.sub.2I.sub.1 1.245 92 δ1(a) = 1.0 {f, e} 15 62519 As6Ba.sub.1Pt.sub.4 0.702 160 δ1(c) = 1.0, δ1(d) = 1.0 {a, f, b, e} 15 62518 As6Pt.sub.4Sr.sub.1 0.748 160 δ1(c) = 1.0, δ1(d) = 1.0 {a, f, b, e} 15 670080 Au.sub.1Cl.sub.1O.sub.2 0.188 60 δ1(a) = −1.0, δ1(c) = 5.0 {f, d, e} 15 423233 Au.sub.1Cl.sub.4Cs.sub.1 1.881 96 δ1(d) = 4.0 {f, c, e} 15 26021 Au.sub.1Cl.sub.4Rb.sub.1 1.967 96 δ1(d) = 4.0 {f, c, e} 15 62107 Au.sub.1Cl.sub.4Tl.sub.1 1.782 84 δ1(c) = 4.0 {f, d, e} 15 9908 Au.sub.1F.sub.4Li.sub.1 1.179 80 δ1(c) = 4.0 {f, d, e} 15 165259 Au.sub.1Li.sub.1S.sub.1 1.142 72 δ1(d) = 5.0 {f, c, b} 15 411410 B.sub.2Li.sub.2Se.sub.5 1.716 76 δ1(b) = 1.0 {f, e} 15 409330 Bi.sub.3Cl.sub.1O.sub.4 2.391 92 δ1(d) = −2.0 {f, c, e} 15 100880 Br.sub.1Cd.sub.2P.sub.3 1.328 92 δ1(b) = 1.0 {f, e} 15 31925 Br.sub.2Hg.sub.2O6 3.493 148 δ1(a) = 1.0 {f} 15 150101 C.sub.2O.sub.4Sn.sub.1 2.597 72 δ1(d) = 1.0 {f, e} 15 54909 C.sub.2O.sub.4Sn.sub.1 2.554 72 δ1(c) = 1.0 {f, e} 15 109770 C.sub.4Ag.sub.2O.sub.4 0.711 248 δ1(b) = −1.0, δ1(d) = −1.0 {f} 15 100879 Cd.sub.2Cl.sub.1P.sub.3 1.441 92 δ1(b) = 1.0 {f, e} 15 100881 Cd.sub.2I.sub.1P.sub.3 1.223 92 δ1(b) = 1.0 {f, e} 15 260975 Cd.sub.2O.sub.12P.sub.4 4.397 232 δ1(c) = 5.0 {f, d, e} 15 28115 Cl.sub.1Hg.sub.2O.sub.1 1.909 148 δ1(c) = 5.0 {f, d, e} 15 74771 Cl.sub.1Hg.sub.2P.sub.3 1.510 92 δ1(a) = 1.0 {f, e} 15 16662 Cl.sub.2Hg.sub.4O.sub.2 1.332 148 δ1(d) = 5.0 {f, c, e} 15 28400 Cl.sub.2Hg.sub.4O.sub.2 1.249 148 δ1(c) = 5.0 {f, d, e} 15 65483 Cl.sub.2Hg.sub.4O.sub.2 1.966 148 δ1(d) = 5.0 {f, c, e} 15 421532 Cl.sub.4Os.sub.1Sc.sub.4 0.529 96 δ1(a) = 1.0 {f, e} 15 14119 Cs.sub.1F7Sb.sub.2 4.352 136 δ1(c) = −2.0 {f, d, e} 15 24741 Cs.sub.1F7Sb.sub.2 2.591 136 δ1(d) = −2.0 {f, c, e} 15 627081 Cs.sub.2Re.sub.3Se6 0.861 300 δ1(a) = 1.0 {f, e} 15 627082 Cs.sub.2Re.sub.3Se6 0.764 300 δ1(a) = 1.0 {f, e} 15 65966 Cs.sub.4Re6S.sub.13 1.368 312 δ1(a) = 1.0 {f, e} 15 60096 Cs.sub.4Re6Se.sub.13 1.038 312 δ1(a) = 1.0 {f, e} 15 72541 Cs.sub.4S.sub.13Tc6 0.974 312 δ1(a) = 1.0 {f, e} 15 72542 Cs.sub.4Se.sub.13Tc6 0.860 312 δ1(a) = 1.0 {f, e} 15 409512 Cs6Ge.sub.2Se6 1.760 196 δ1(d) = 1.0 {f, e} 15 89683 Cs6Ge.sub.2Te6 1.145 196 δ1(d) = 1.0 {f, e} 15 280070 Cs6Sn.sub.2Te6 1.233 196 δ1(c) = 1.0 {f, e} 15 400657 Cu.sub.2O.sub.2Pb.sub.1 0.783 76 δ1(c) = 5.0 {a, d, e, f} 15 628762 Cu.sub.2Re.sub.3Se6 0.329 316 δ1(a) = 1.0 {f, e} 15 33740 Fe.sub.2O.sub.12P.sub.4 0.335 216 δ1(d) = 3.0 {f, c, e} 15 63500 Fe.sub.2O.sub.12P.sub.4 0.412 216 δ1(d) = 3.0 {f, c, e} 15 10108 Ge.sub.2K6Te6 1.166 196 δ1(c) = 1.0 {f, e} 15 2565 Hg.sub.2P.sub.2Se6 1.060 140 δ1(d) = 1.0 {f} 15 639132 Hg.sub.2P.sub.2Se6 1.092 140 δ1(c) = 1.0 {f} 15 200836 K.sub.2Re.sub.3S6 1.411 300 δ1(a) = 1.0 {f, e} 15 641311 K.sub.2Re.sub.3S6 1.426 300 δ1(a) = 1.0 {f, e} 15 641312 K.sub.2Re.sub.3S6 1.496 300 δ1(a) = 1.0 {f, e} 15 641314 K.sub.2Re.sub.3S6 1.439 300 δ1(a) = 1.0 {f, e} 15 641315 K.sub.2Re.sub.3Se6 1.120 300 δ1(a) = 1.0 {f, e} 15 60101 K.sub.4Re6Sc.sub.12 1.110 300 δ1(a) = 1.0 {f, e} 15 72537 K.sub.4S.sub.12Tc6 1.040 300 δ1(a) = 1.0 {f, e} 15 72538 K.sub.4Se.sub.12Tc6 0.874 300 δ1(a) = 1.0 {f, e} 15 68107 Mn.sub.2Mo.sub.1P.sub.12 0.071 160 δ1(a) = 1.0, δ1(c) = 1.0, δ1(d) = 1.0 {f, e} 15 18305 Na.sub.2Nb.sub.4O.sub.11 1.949 240 δ1(c) = −2.0 {f, d, e} 15 200835 Na.sub.2Re.sub.3S6 1.519 236 δ1(a) = 1.0 {f, e} 15 644948 Na.sub.2Re.sub.3S6 1.536 236 δ1(a) = 1.0 {f, e} 15 644951 Na.sub.2Re.sub.3S6 1.726 236 δ1(a) = 1.0 {f, e} 15 76536 Na.sub.2Re.sub.3S6 1.471 236 δ1(a) = 1.0 {f, e} 15 644953 Na.sub.2Re.sub.3Se6 1.180 236 δ1(a) = 1.0 {f, e} 15 644954 Na.sub.2Re.sub.3Se6 1.120 236 δ1(a) = 1.0 {f, e} 15 261228 O.sub.3Si.sub.1Sr.sub.1 3.558 192 δ1(c) = −2.0 {f, d, e} 15 671478 O.sub.4Pd.sub.1S.sub.1 0.977 80 δ1(d) = 4.0 {f, c, e} 15 671485 O.sub.4Pt.sub.1S.sub.1 1.525 80 δ1(d) = 4.0 {f, c, e} 15 166875 O7P.sub.2Pd.sub.2 0.911 144 δ1(c) = 4.0 {a, d, e, f} 15 195291 O7P.sub.2Pd.sub.2 0.884 144 δ1(d) = 4.0 {a, c, f, e} 15 195292 O7P.sub.2Pd.sub.2 0.962 144 δ1(c) = 4.0 {a, d, e, f} 15 195293 O7P.sub.2Pd.sub.2 0.922 144 δ1(c) = 4.0 {a, d, e, f} 15 415239 O7P.sub.2Pd.sub.2 0.911 144 δ1(c) = 4.0 {a, d, e, f} 15 62517 P6Pt.sub.4Sr.sub.1 0.904 160 δ1(c) = 1.0, δ1(d) = 1.0 {a, f, b, e} 15 650019 Rb.sub.2Re.sub.3S6 1.344 300 δ1(a) = 1.0 {f, e} 15 650022 Rb.sub.2Re.sub.3Se6 1.007 300 δ1(a) = 1.0 {f, e} 15 650023 Rb.sub.2Re.sub.3Se6 1.021 300 δ1(a) = 1.0 {f, e} 15 79583 Rb.sub.4Re6S.sub.12 1.347 300 δ1(a) = 1.0 {f, e} 15 60098 Rb.sub.4Re6S.sub.13 1.203 312 δ1(a) = 1.0 {f, e} 15 60100 Rb.sub.4Re6Se.sub.12 1.038 300 δ1(a) = 1.0 {f, e} 15 72539 Rb.sub.4S.sub.13Tc6 0.941 312 δ1(a) = 1.0 {f, e} 15 72540 Rb.sub.4Se.sub.12Tc6 0.805 300 δ1(a) = 1.0 {f, e} 15 650081 Re.sub.3S6Tl.sub.2 0.966 252 δ1(a) = 1.0 {f, e} 15 650082 Re.sub.3S6Tl.sub.2 1.085 252 δ1(a) = 1.0 {f, e} 15 600320 Re.sub.3Se6Tl.sub.2 0.550 252 δ1(a) = 1.0 {f, e} 15 650098 Re.sub.3Se6Tl.sub.2 0.558 252 δ1(a) = 1.0 {f, e} 15 65822 Re6Se.sub.12Tl.sub.4 0.794 252 δ1(a) = 1.0 {f, e} 51 26077 Br.sub.11Cs.sub.1Nb.sub.4 0.150 276 δ1(b) = −1.0 {l, j, e, k, f, i, g} 51 380397 Br.sub.11Nb.sub.4Rb.sub.1 0.219 276 δ1(b) = −1.0 {l, j, k, e, f, i, g} 51 26076 Cl.sub.11Cs.sub.1Nb.sub.4 0.348 276 δ1(a) = −1.0 {l, j, k, e, f, i, g} 51 412126 Cl.sub.11Nb.sub.4Rb.sub.1 0.377 276 δ1(a) = −1.0 {l, j, e, k, f, i, g} 55 183853 Al.sub.2Ca.sub.5Sb6 0.131 92 δ1(d) = −1.0 {a, h, g} 55 60146 Al.sub.2Ca.sub.5Sb6 0.100 92 δ1(a) = −1.0 {h, d, g} 55 201221 Al.sub.2Cl.sub.8Se.sub.4 1.462 344 δ1(b) = −1.0, δ1(c) = −1.0 {e, f, h, i, g} 55 27 As6Ca.sub.5Ga.sub.2 0.085 92 δ1(a) = −1.0 {h, d, g} 55 79976 Ba.sub.1Nb.sub.8O.sub.14 0.339 396 δ1(b) = −1.0 {c, a, h, d, i, g} 55 280592 Ba.sub.3O.sub.1Sb.sub.2 0.318 184 δ1(b) = −1.0, δ1(d) = −1.0 {h, g} 55 62305 Ba.sub.5In.sub.2Sb6 0.003 172 δ1(a) = −1.0 {h, d, g} 55 163584 C.sub.2K.sub.2O.sub.4 2.813 100 δ1(c) = −1.0 {h, g} 55 165561 C.sub.2K.sub.2O.sub.4 2.813 100 δ1(c) = −1.0 {h, g} 55 163587 C.sub.2O.sub.4Rb.sub.2 3.187 100 δ1(a) = −1.0 {h, g} 55 165563 C.sub.2O.sub.4Rb.sub.2 3.187 100 δ1(a) = −1.0 {h, g} 55 36467 Ca.sub.5In.sub.2Sb6 0.031 92 δ1(a) = −1.0 {h, d, g} 55 672086 Ca.sub.5In.sub.2Sb6 0.104 92 δ1(b) = −1.0 {c, h, g} 55 36468 In.sub.2Sb6Sr.sub.5 0.004 172 δ1(a) = −1.0 {h, d, g} 55 202673 Nb.sub.8O.sub.14Sr.sub.1 0.259 396 δ1(b) = −1.0 {c, a, h, d, i, g} 55 202674 Nb.sub.8O.sub.14Sr.sub.1 0.172 396 δ1(c) = −1.0 {a, b, h, d, i, g} 58 165377 Ag.sub.5O.sub.4Si.sub.1 0.633 332 δ1(a) = −1.0 {h, g} 60 74770 Br.sub.1Hg.sub.2P.sub.3 1.005 184 δ1(a) = 1.0 {c, d} 60 15853 Nb.sub.2Ni.sub.1O6 0.024 288 δ1(a) = 1.0 {c, d} 60 91166 O.sub.9P.sub.2V.sub.2 0.029 296 δ1(a) = 1.0 {c, d} 61 421883 Al.sub.2Cl.sub.8Te.sub.4 1.373 344 δ1(b) = 1.0 {c} 61 411949 Au.sub.1O.sub.4S.sub.1 1.854 328 δ1(b) = 1.0 {c} 61 201539 Cl.sub.2N.sub.4S6 1.169 280 δ1(b) = −1.0 {c} 61 160511 Co.sub.1Ge.sub.1Te.sub.1 0.154 152 δ1(a) = 1.0 {c} 61 419780 Co.sub.1Ge.sub.1Te.sub.1 0.049 152 δ1(a) = 1.0 {c} 61 29506 Cu.sub.1O.sub.3Se.sub.1 0.103 280 δ1(a) = −1.0 {c} 61 61342 Cu.sub.1O.sub.3Se.sub.1 0.093 280 δ1(b) = −1.0 {c} 61 430942 Cu.sub.1P.sub.2Se.sub.1 0.648 216 δ1(b) = 1.0 {c} 61 260373 Ge.sub.1Rh.sub.1Te.sub.1 0.254 152 δ1(a) = 1.0 {c} 61 429412 O6P.sub.2Tl.sub.4 2.444 232 δ1(b) = 1.0 {c} 61 413194 Pt.sub.1Sb.sub.1Si.sub.1 0.199 152 δ1(a) = 1.0 {c} 62 300157 Al.sub.1K.sub.1Sb.sub.4 0.185 128 δ1(b) = 1.0 {c} 62 10032 Al.sub.1P.sub.3Si.sub.1 0.274 88 δ1(a) = 1.0 {c, d, b} 62 280231 As.sub.1La.sub.1Te.sub.1 0.045 88 δ1(a) = 1.0 {c} 62 391228 As.sub.2Hg.sub.4O7 1.379 400 δ1(a) = 1.0, δ1(b) = 1.0 {c, d} 62 412643 Ba.sub.1P.sub.4Te.sub.2 1.019 168 δ1(b) = 1.0 {c, d} 62 78830 Cs.sub.2Ge.sub.1Te.sub.4 0.521 184 δ1(b) = 1.0 {c, d} 62 74826 Cs.sub.2Sn.sub.1Te.sub.4 0.688 184 δ1(b) = 1.0 {c, d} 62 300158 Ga.sub.1K.sub.1Sb.sub.4 0.229 128 δ1(a) = 1.0 {c} 62 153289 H.sub.2B.sub.1Li.sub.1 0.412 24 δ1(b) = 1.0 {c} 62 673401 La.sub.1Mn.sub.1S.sub.3 0.333 144 δ1(a) = 1.0 {c} 62 641637 La.sub.1P.sub.1S.sub.1 0.453 176 δ1(b) = 1.0 {c, d} 62 648080 P.sub.1S.sub.1Y.sub.1 0.349 176 δ1(a) = 1.0 {c, d} 62 71962 P.sub.2Ru.sub.2Th.sub.1 0.152 152 δ1(b) = 1.0 {c} 63 391275 I.sub.1K.sub.4P.sub.21 1.087 296 δ1(d) = 1.0 {c, e, f, h, g} 63 391274 I.sub.1P.sub.21Rb.sub.4 1.244 296 δ1(d) = 1.0 {c, e, f, h, g} 64 418627 B.sub.12Li.sub.2Si.sub.2 1.682 92 δ1(a) = 1.0 {f, g} 64 411967 B.sub.2Ba.sub.1Se6 1.716 104 δ1(c) = 1.0 {a, d, f, g} 64 165180 In.sub.9K.sub.1Na.sub.3 0.014 156 δ1(b) = 1.0 {f, e, g} 64 68498 La.sub.2O.sub.2S.sub.2 1.570 92 δ1(a) = −1.0 {f, d, e} 64 415240 Na.sub.4P.sub.2Se6 1.943 100 δ1(a) = −1.0 {f, e, g} 64 37326 Nb.sub.1P.sub.2S.sub.8 1.289 284 δ1(a) = −1.0 {f, d, g} 67 36078 F6Pa.sub.1Rb.sub.1 0.297 128 δ1(f) = 2.0 {n, d, o, g} 68 165258 Au.sub.1Na.sub.1S.sub.1 2.138 288 δ1(c) = 5.0 {e, f, d, i, g} 69 627055 Cs.sub.2Ni.sub.3S.sub.4 0.287 72 δ1(c) = -4.0 {a, e, i, m} 69 33891 Cs.sub.2Ni.sub.3Se.sub.4 0.492 72 δ1(c) = -4.0 {e, b, i, m} 69 33892 Cs.sub.2Pd.sub.3Se.sub.4 1.007 72 δ1(c) = -4.0 {e, b, i, m} 69 26266 Cs.sub.2Pt.sub.3S.sub.4 1.117 72 δ1(c) = -4.0 {a, e, i, m} 69 33893 Cs.sub.2Pt.sub.3Se.sub.4 1.216 72 δ1(c) = -4.0 {a, e, i, m} 69 20578 Li.sub.2O.sub.4U.sub.1 0.764 40 δ1(c) = 2.0 {a, e, i} 69 20579 Na.sub.2O.sub.4U.sub.1 1.179 40 δ1(c) = 2.0 {a, e, i} 69 646311 Ni.sub.3Rb.sub.2S.sub.4 0.363 72 δ1(c) = -4.0 {a, e, i, m} 69 26267 Pt.sub.3Rb.sub.2S.sub.4 0.974 72 δ1(c) = -4.0 {a, e, i, m} 71 152056 Au.sub.1Cs.sub.1F.sub.4 2.190 96 δ1(c) = -4.0 {l, j, b, d, i, g} 71 411334 Au.sub.5Cs7O.sub.2 0.719 130 δ1(c) = 2.0 {a, l, j, h, d, i, g} 71 95821 Au.sub.5Cs7O.sub.2 1.123 130 δ1(c) = 2.0 {a, l, i, h, d, i, g} 71 411333 Au.sub.5O.sub.2Rb7 0.492 130 δ1(c) = -5.0 {a, l, j, h, d, i, g} 71 91309 Au.sub.5O.sub.2Rb7 0.491 130 δ1(c) = -5.0 {a, l, i, h, d, i, g} 71 95825 Au.sub.5O.sub.2Rb7 0.633 130 δ1(c) = 2.0 {a, l, j, h, d, i, g} 71 245981 Br.sub.3Cs.sub.1Li.sub.2 3.899 32 δ1(c) = 2.0 {d, j, b, i} 71 69688 Cl.sub.2I.sub.2Ta.sub.1 0.963 66 δ1(c) = −1.0 {f, n, j, i} 71 245974 Cl.sub.3Cs.sub.1Li.sub.2 4.944 32 δ1(b) = 2.0 {a, c, j, i} 71 250914 Hf.sub.2N.sub.2S.sub.1 1.532 24 δ1(d) = 2.0 {j, b, i} 71 25000 Li.sub.2Ni.sub.1O.sub.2 0.406 24 δ1(b) = -4.0 {c, j, i} 71 183666 Na.sub.2O.sub.3Ti.sub.1 1.019 24 δ1(c) = 2.0 {a, d, j, i} 71 6157 Na.sub.2O.sub.4Pd.sub.3 0.292 56 δ1(d) = -4.0 {j, b, i, l} 71 16536 O.sub.3Pd.sub.1Sr.sub.2 0.176 48 δ1(c) = 2.0 {a, d, i} 71 31961 O.sub.3Pd.sub.1Sr.sub.2 0.092 48 δ1(c) = 2.0 {a, d, i} 71 95214 O.sub.3Pd.sub.1Sr.sub.2 0.125 48 δ1(c) = 2.0 {a, d, i} 74 35336 Al.sub.1B.sub.14Li.sub.1 1.264 92 δ1(c) = 1.0 {h, d, j, e} 74 79626 Ba.sub.1Ce.sub.1O.sub.3 1.935 80 δ1(a) = 2.0 {f, d, e} 74 88591 Ba.sub.1Ce.sub.1O.sub.3 1.941 80 δ1(d) = 2.0 {f, c, e} 74 94347 Ba.sub.1Ce.sub.1O.sub.3 1.936 80 δ1(b) = 2.0 {f, c, e} 74 415557 C.sub.2B.sub.13Li.sub.1 2.539 96 δ1(d) = 1.0 {h, j, e} 74 88338 Cu.sub.11K.sub.3Te.sub.16 0.206 488 δ1(a) = 2.0, δ1(b) = −1.0 {c, j, e, f, h, i, g} 74 74726 O.sub.4P.sub.1Rh.sub.1 1.031 228 δ1(a) = -3.0 {c, j, e, f, h, i} 74 167191 O.sub.4Si.sub.1Zn.sub.2 1.997 208 δ1(c) = -5.0 {a, j, e, h, g} 84 35299 P.sub.2S6Th.sub.1 2.523 116 δ1(d) = −1.0 {j, e, k} 84 35298 P.sub.2S6Zr.sub.1 1.572 100 δ1(d) = −1.0 {j, e, k} 87 89497 Ba.sub.9Br.sub.34O.sub.1Pr6 0.008 406 δ1(b) = −1.0 {a, e, h, d, i, g} 87 406949 Bi.sub.4I.sub.2Ru.sub.1 0.341 84 δ2(a) = −1.0, δ1(b) = −1.0 {h, e} 87 81 La.sub.4O.sub.10Re.sub.2 0.894 118 δ2(a) = 1.0 {h, d, e, i} 123 69124 Br.sub.2Cs.sub.1F.sub.1 1.772 30 δ2(d) = −1.0 {a, h, c} 123 84019 Br.sub.2Cs.sub.1F.sub.1 1.371 30 δ2(d) = −1.0 {a, h, c} 123 410874 C.sub.2Ag.sub.1K.sub.1 2.357 28 δ1(b) = 1.0 {a, d, g} 123 411251 C.sub.2Au.sub.1Cs.sub.1 1.710 28 δ1(b) = 1.0 {a, d, g} 123 411255 C.sub.2Au.sub.1K.sub.1 1.861 28 δ1(b) = 1.0 {a, d, g} 123 411254 C.sub.2Au.sub.1Na.sub.1 1.085 20 δ1(b) = 1.0 {a, d, g} 123 411252 C.sub.2Au.sub.1Rb.sub.1 1.786 28 δ1(b) = 1.0 {a, d, g} 123 391118 C.sub.2Cu.sub.1Rb.sub.1 2.008 28 δ1(b) = 1.0 {a, d, g} 123 391119 C.sub.2Cu.sub.1Rb.sub.1 2.007 28 δ1(b) = 1.0 {a, d, g} 131 410873 C.sub.2Ag.sub.1Cs.sub.1 2.576 56 δ1(d) = 1.0 {e, b, k} 131 412037 C.sub.2Cu.sub.1K.sub.1 2.110 56 δ1(d) = 1.0 {b, e, k} 131 412038 C.sub.2Cu.sub.1K.sub.1 2.111 56 δ1(d) = 1.0 {b, e, k} 131 412039 C.sub.2Cu.sub.1Rb.sub.1 2.109 56 δ1(d) = 1.0 {b, e, k} 131 412040 C.sub.2Cu.sub.1Rb.sub.1 2.092 56 δ1(d) = 1.0 {b, e, k} 136 416393 Cl.sub.3O.sub.1W.sub.1 0.099 132 δ1(a) = −1.0 {f, i, g} 136 65183 I.sub.3O.sub.1W.sub.1 0.389 132 δ1(a) = −1.0 {f, i, g} 137 62137 Li6O.sub.4Zn.sub.1 3.707 84 δ1(a) = −1.0 {f, d, b, g} 138 401591 Cl6Hf.sub.1Se.sub.4 1.375 280 δ1(d) = −1.0 {c, j, h, i} 138 401590 Cl6Se.sub.4Zr.sub.1 1.394 280 δ1(d) = −1.0 {c, j, h, i} 139 84020 Br.sub.2Cs.sub.2F.sub.2 2.546 46 δ2(a) = −1.0 {e} 139 84021 Br.sub.2Cs.sub.2F.sub.2 2.295 46 δ2(a) = −1.0 {e} 139 84022 Br.sub.2Cs.sub.2F.sub.2 2.147 46 δ2(a) = −1.0 {e} 139 280189 Cs.sub.2I6Pd.sub.1 0.532 70 δ2(b) = −1.0 {a, h, d, e} 140 412830 C.sub.4Ba.sub.1O.sub.4 2.531 100 δ1(d) = 1.0 {a, l} 141 163982 Ag.sub.3Cu.sub.1S.sub.2 0.264 224 δ1(c) = −5.0 {h, d, e, g} 141 67526 Ag.sub.3Cu.sub.1S.sub.2 0.327 224 δ1(d) = −5.0 {c, h, e, g} 141 9456 Ba.sub.1Cu.sub.2O.sub.2 1.339 88 δ1(c) = −5.0 {a, d, e} 141 22206 Ba.sub.1O7U.sub.2 1.603 160 δ1(d) = 2.0 {c, a, e, b, f} 141 248144 C.sub.4O.sub.4Pb.sub.1 3.071 88 δ1(b) = 1.0 {a, h, e} 141 52389 Cd.sub.1In.sub.2O.sub.4 0.636 84 δ1(b) = −1.0 {a, h, d} 141 61333 Cl.sub.2O.sub.1Pd.sub.2 0.765 80 δ1(d) = −4.0 {a, c, e} 141 25002 Cu.sub.2O.sub.2Sr.sub.1 1.821 88 δ1(c) = −5.0 {a, d, e} 147 75001 Al.sub.1Si.sub.1Te.sub.3 0.688 50 δ2(b) = −1.0 {c, d, g} 148 151976 B.sub.12Br.sub.14Cs.sub.2 2.815 276 δ2(a) = 1.0, δ2(b) = 1.0 {f, c} 148 151975 B.sub.12Cl.sub.12Cs.sub.2 3.473 276 δ2(a) = 1.0, δ2(b) = 1.0 {f, c} 148 151977 B.sub.12Cs.sub.2I.sub.12 1.561 276 δ2(a) = 1.0, δ2(b) = 1.0 {f, c} 148 620234 Cd.sub.2P.sub.2Se6 1.235 70 δ2(b) = −1.0 {f, c} 148 620237 Cd.sub.2P.sub.2Se6 1.157 70 δ2(b) = −1.0 {f, c} 148 415545 Cs.sub.8O.sub.1Tl.sub.8 0.268 102 δ2(a) = −1.0 {f, c, b} 148 54141 Fe.sub.1P.sub.1Se.sub.3 0.187 62 δ2(b) = −1.0 {f, c} 148 633091 Fe.sub.1P.sub.1Se.sub.3 0.183 62 δ2(b) = −1.0 {f, c} 148 633094 Fe.sub.1P.sub.1Se.sub.3 0.184 62 δ2(b) = −1.0 {f, c} 148 633095 Fe.sub.1P.sub.1Se.sub.3 0.184 62 δ2(b) = −1.0 {f, c} 148 56890 Fe.sub.2P.sub.2Se6 0.073 62 δ2(b) = −1.0 {f, c} 148 413165 Mg.sub.2P.sub.2Se6 2.367 50 δ2(b) = −1.0 {f, c} 148 642731 Mg.sub.2P.sub.2Se6 2.384 50 δ2(b) = −1.0 {f, c} 148 280002 Nb6O.sub.12Ti.sub.2 0.491 158 δ2(a) = −1.0 {f, c} 162 411230 As.sub.2Hg.sub.2O6 1.770 70 δ2(a) = −1.0 {d, e, k} 162 673231 Ca.sub.1O6Os.sub.2 0.164 54 δ1(b) = −1.0 {a, d, k} 162 248351 O6Ru.sub.2Sr.sub.1 0.071 62 δ1(b) = −1.0 {a, d, k} 164 94396 C.sub.2Cs.sub.2Pd.sub.1 1.675 36 δ1(b) = 1.0 {a, c, d} 164 94397 C.sub.2Cs.sub.2Pt.sub.1 0.918 36 δ1(b) = 1.0 {a, c, d} 164 421489 C.sub.2K.sub.2Pd.sub.1 1.438 36 δ1(b) = 1.0 {a, c, d} 164 421490 C.sub.2K.sub.2Pd.sub.1 1.434 36 δ1(b) = 1.0 {a, c, d} 164 421491 C.sub.2K.sub.2Pt.sub.1 0.789 36 δ1(b) = 1.0 {a, c, d} 164 421492 C.sub.2K.sub.2Pt.sub.1 0.808 36 δ1(b) = 1.0 {a, c, d} 164 411388 C.sub.2Na.sub.2Pd.sub.1 0.783 20 δ1(b) = 1.0 {a, c, d} 164 50172 C.sub.2Na.sub.2Pd.sub.1 0.930 20 δ1(b) = 1.0 {a, c, d} 164 50173 C.sub.2Na.sub.2Pt.sub.1 0.334 20 δ1(b) = 1.0 {a, c, d} 164 421493 C.sub.2Pd.sub.1Rb.sub.2 1.607 36 δ1(b) = 1.0 {a, c, d} 164 421494 C.sub.2Pd.sub.1Rb.sub.2 1.570 36 δ1(b) = 1.0 {a, c, d} 164 94394 C.sub.2Pd.sub.1Rb.sub.2 1.561 36 δ1(b) = 1.0 {a, c, d} 164 94395 C.sub.2Pt.sub.1Rb.sub.2 0.919 36 δ1(b) = 1.0 {a, c, d} 164 183134 H.sub.2B.sub.2Ca.sub.1 0.052 10 δ1(f) = −1.0 {a, d} 164 200210 Mg.sub.3Nb6O.sub.11 0.159 150 δ2(a) = −1.0 {d, e, b, i} 164 62662 Mg.sub.3Nb6O.sub.11 0.183 150 δ2(a) = −1.0 {d, e, b, i} 164 109329 O.sub.2Pr.sub.2S.sub.1 0.009 44 δ2(b) = −1.0 {a, d} 164 154585 O.sub.2Pr.sub.2S.sub.1 0.006 44 δ2(b) = −1.0 {a, d} 164 25805 O.sub.2Pr.sub.2Se.sub.1 0.009 44 δ2(b) = −1.0 {a, d} 164 94415 O.sub.2Pr.sub.2Se.sub.1 0.008 44 δ2(b) = −1.0 {a, d} 166 280938 B.sub.9Mg.sub.1N.sub.1 1.681 68 δ2(a) = −1.0, δ2(b) = 1.0 {c, h} 166 422336 Cs.sub.4O.sub.1Tl.sub.2 0.162 144 δ2(b) = −2.0 {c, h, a} 166 184007 F.sub.1Gd.sub.1O.sub.1 0.013 62 δ2(a) = −1.0 {c} 166 247802 F.sub.1Gd.sub.1O.sub.1 0.013 62 δ2(a) = −1.0 {c} 166 247803 F.sub.1Gd.sub.1O.sub.1 0.013 62 δ2(a) = −1.0 {c} 166 247804 F.sub.1Gd.sub.1O.sub.1 0.013 62 δ2(a) = −1.0 {c} 166 247805 F.sub.1Gd.sub.1O.sub.1 0.013 62 δ2(a) = −1.0 {c} 166 247806 F.sub.1Gd.sub.1O.sub.1 0.013 62 δ2(a) = −1.0 {c} 166 87361 H.sub.8F.sub.4N.sub.2 1.807 46 δ2(a) = −1.0 {c, h} 176 75452 Br.sub.9Os.sub.2Rb.sub.3 0.338 212 δ1(c) = −1.0 {f, h, a, i} 176 31030 C.sub.9Fe.sub.2O.sub.9 2.544 212 δ1(c) = −1.0 {f, b, i} 176 6010 C.sub.9Fe.sub.2O.sub.9 2.682 212 δ1(c) = −1.0 {f, h, i} 187 191307 Mo.sub.1S.sub.1Se.sub.1 0.621 36 δ1(a) = 1.0, δ1(b) = 1.0, δ1(g) = 2.0 {h, d, e, i} 190 35389 Ag.sub.2I.sub.10T.sub.16 0.795 220 δ1(d) = −1.0 {f, h, e, g} 194 75386 Ba.sub.5O.sub.10Ru.sub.2 0.036 252 δ1(d) = 2.0 {c, a, e, k, f, h} 194 56896 Br.sub.9Os.sub.2Rb.sub.3 0.338 212 δ1(c) = 1.0 {f, h, b, k} 194 422525 Ca.sub.1Ga.sub.2P.sub.2 0.245 36 δ1(c) = 1.0 {a, f} 194 260562 Ca.sub.1In.sub.2P.sub.2 0.595 36 δ1(d) = 1.0 {a, f} 194 201057 Cl.sub.9Cs.sub.3Ru.sub.2 0.332 212 δ1(d) = 1.0 {f, h, b, k} 194 402407 Cl.sub.9Cs.sub.3Ti.sub.2 0.096 196 δ1(d) = 1.0 {f, h, b, k} 194 201958 Cs.sub.3F.sub.9Fe.sub.2 0.011 212 δ1(b) = 1.0 {e, k, f, h, d} 194 26565 Cs.sub.3I.sub.9Zr.sub.2 0.255 196 δ1(d) = 1.0 {f, h, b, k} 194 260563 In.sub.2P.sub.2Sr.sub.1 0.403 52 δ1(d) = 1.0 {a, f} 194 26286 K.sub.1Nb.sub.1S.sub.2 0.815 68 δ1(d) = 1.0 {a, f, b} 194 26288 K.sub.1Nb.sub.1Se.sub.2 0.545 68 δ1(d) = 1.0 {a, f, b} 194 300243 Li.sub.1Nb.sub.1O.sub.2 1.590 52 δ1(b) = 1.0 {f, d, a} 194 42008 Li.sub.1Nb.sub.1O.sub.2 1.605 52 δ1(b) = 1.0 {a, d, f} 194 451 Li.sub.1Nb.sub.1O.sub.2 1.617 52 δ1(b) = 1.0 {a, d, f} 194 73109 Li.sub.1Nb.sub.1O.sub.2 1.590 52 δ1(b) = 1.0 {a, d, f} 194 73110 Li.sub.1Nb.sub.1O.sub.2 1.592 52 δ1(b) = 1.0 {a, d, f} 194 75880 Li.sub.1Nb.sub.1O.sub.2 1.583 52 δ1(b) = 1.0 {a, d, f} 194 26284 Li.sub.1Nb.sub.1S.sub.2 0.702 52 δ1(d) = 1.0 {a, f, b} 194 29282 Na.sub.1Nb.sub.1O.sub.2 1.478 52 δ1(b) = 1.0 {a, d, f} 194 300244 Na.sub.1Nb.sub.1O.sub.2 1.256 52 δ1(b) = 1.0 {a, d, f} 194 73111 Na.sub.1Nb.sub.1O.sub.2 0.340 52 δ1(b) = 1.0 {a, d, f} 194 26285 Na.sub.1Nb.sub.1S.sub.2 0.606 52 δ1(d) = 1.0 {a, f, b} 194 26287 Na.sub.1Nb.sub.1Se.sub.2 0.405 52 δ1(d) = 1.0 {a, f, b} 202 92501 H.sub.12B.sub.12Cs.sub.2 5.609 66 δ1(a) = 1.0 {c, h} 202 36148 H.sub.12B.sub.12K.sub.2 6.042 66 δ1(a) = 1.0 {c, h} 202 98616 H.sub.12B.sub.12K.sub.2 5.976 66 δ1(a) = 1.0 {c, h} 202 20015 H.sub.12B.sub.12Rb.sub.2 4.589 66 δ1(a) = 1.0 {c, h} 202 98617 H.sub.12B.sub.12Rb.sub.2 5.807 66 δ1(a) = 1.0 {c, h} 202 151981 H.sub.12B.sub.12Tl.sub.2 3.592 54 δ1(b) = 1.0 {c, h} 202 261530 H.sub.12B.sub.12Tl.sub.2 3.600 54 δ1(a) = 1.0 {c, h} 202 422433 H.sub.12B.sub.12Tl.sub.2 3.600 54 δ1(a) = 1.0 {c, h} 202 98618 H.sub.20B.sub.12N.sub.2 5.875 66 δ1(a) = 1.0 {f, c, h} 203 405959 As.sub.1Rb.sub.3Se.sub.16 1.057 256 δ1(c) = 1.0, δ2(c) = 1.0 {a, e, b, d, g} 203 280849 K.sub.3P.sub.1Se.sub.16 1.142 256 δ1(d) = 1.0, δ2(d) = 1.0 {c, a, e, b, g} 205 23145 H6Cl.sub.2N.sub.2 2.645 120 δ2(a) = −1.0 {c, d} 205 240903 H6Cl.sub.2N.sub.2 5.080 120 δ2(a) = −1.0 {c, d} 206 78851 F6O.sub.2Pt.sub.1 0.013 256 δ1(a) = 1.0 {c, e, b} 216 605048 Ag.sub.1Cu.sub.4Tb.sub.1 0.009 74 δ1(d) = −1.0 {a, c, e} 216 160459 Au.sub.1Sc.sub.1Sn.sub.1 0.014 18 δ1(c) = −1.0 {a, d, b} 216 245754 Au.sub.1Sc.sub.1Sn.sub.1 0.013 18 δ1(d) = −1.0 {a, c, b} 216 415827 Au.sub.1Sc.sub.1Sn.sub.1 0.018 18 δ1(c) = −1.0 {a, d, b} 216 58583 Au.sub.1Sc.sub.1Sn.sub.1 0.017 18 δ1(d) = −1.0 {a, c, b} 216 612303 Au.sub.1Sc.sub.1Sn.sub.1 0.017 18 δ1(d) = −1.0 {a, c, b} 216 107120 Bi.sub.1Co.sub.1Zr.sub.1 0.956 18 δ1(d) = −1.0 {a, c, b} 216 673864 Bi.sub.1Co.sub.1Zr.sub.1 0.969 18 δ1(d) = −1.0 {a, c, b} 216 58802 Bi.sub.1Lu.sub.1Ni.sub.1 0.062 40 δ1(d) = −1.0 {a, c, b} 216 58824 Bi.sub.1Ni.sub.1Sc.sub.1 0.142 18 δ1(d) = −1.0 {a, c, b} 216 672840 Bi.sub.1Ni.sub.1Sc.sub.1 0.143 18 δ1(d) = −1.0 {a, c, b} 216 58826 Bi.sub.1Ni.sub.1Y.sub.1 0.142 26 δ1(d) = −1.0 {a, c, b} 216 672841 Bi.sub.1Ni.sub.1Y.sub.1 0.143 26 δ1(d) = −1.0 {a, c, b} 216 169138 Co.sub.1Sb.sub.1Ti.sub.1 1.046 18 δ1(d) = −1.0 {a, c, b} 216 169139 Co.sub.1Sb.sub.1Ti.sub.1 1.045 18 δ1(d) = −1.0 {a, c, b} 216 169140 Co.sub.1Sb.sub.1Ti.sub.1 1.045 18 δ1(d) = −1.0 {a, c, b} 216 169141 Co.sub.1Sb.sub.1Ti.sub.1 1.045 18 δ1(d) = −1.0 {a, c, b} 216 169142 Co.sub.1Sb.sub.1Ti.sub.1 1.044 18 δ1(d) = −1.0 {a, c, b} 216 169143 Co.sub.1Sb.sub.1Ti.sub.1 1.044 18 δ1(d) = −1.0 {a, c, b} 216 169144 Co.sub.1Sb.sub.1Ti.sub.1 1.044 18 δ1(d) = −1.0 {a, c, b} 216 169145 Co.sub.1Sb.sub.1Ti.sub.1 1.044 18 δ1(d) = −1.0 {a, c, b} 216 169146 Co.sub.1Sb.sub.1Ti.sub.1 1.043 18 δ1(d) = −1.0 {a, c, b} 216 169147 Co.sub.1Sb.sub.1Ti.sub.1 1.042 18 δ1(d) = −1.0 {a, c, b} 216 169148 Co.sub.1Sb.sub.1Ti.sub.1 1.042 18 δ1(d) = −1.0 {a, c, b} 216 169149 Co.sub.1Sb.sub.1Ti.sub.1 1.042 18 δ1(d) = −1.0 {a, c, b} 216 169150 Co.sub.1Sb.sub.1Ti.sub.1 1.041 18 δ1(d) = −1.0 {a, c, b} 216 169151 Co.sub.1Sb.sub.1Ti.sub.1 1.041 18 δ1(d) = −1.0 {a, c, b} 216 169152 Co.sub.1Sb.sub.1Ti.sub.1 1.040 18 δ1(d) = −1.0 {a, c, b} 216 169153 Co.sub.1Sb.sub.1Ti.sub.1 1.039 18 δ1(d) = −1.0 {a, c, b} 216 169154 Co.sub.1Sb.sub.1Ti.sub.1 1.039 18 δ1(d) = −1.0 {a, c, b} 216 169155 Co.sub.1Sb.sub.1Ti.sub.1 1.039 18 δ1(d) = −1.0 {a, c, b} 216 169156 Co.sub.1Sb.sub.1Ti.sub.1 1.033 18 δ1(d) = −1.0 {a, c, b} 216 169157 Co.sub.1Sb.sub.1Ti.sub.1 1.031 18 δ1(d) = −1.0 {a, c, b} 216 169158 Co.sub.1Sb.sub.1Ti.sub.1 1.030 18 δ1(d) = −1.0 {a, c, b} 216 169159 Co.sub.1Sb.sub.1Ti.sub.1 1.028 18 δ1(d) = −1.0 {a, c, b} 216 169160 Co.sub.1Sb.sub.1Ti.sub.1 1.026 18 δ1(d) = −1.0 {a, c, b} 216 169161 Co.sub.1Sb.sub.1Ti.sub.1 1.025 18 δ1(d) = −1.0 {a, c, b} 216 169162 Co.sub.1Sb.sub.1Ti.sub.1 1.024 18 δ1(d) = −1.0 {a, c, b} 216 169163 Co.sub.1Sb.sub.1Ti.sub.1 1.022 18 δ1(d) = −1.0 {a, c, b} 216 169164 Co.sub.1Sb.sub.1Ti.sub.1 1.021 18 δ1(d) = −1.0 {a, c, b} 216 169165 Co.sub.1Sb.sub.1Ti.sub.1 1.019 18 δ1(d) = −1.0 {a, c, b} 216 53070 Co.sub.1Sb.sub.1Ti.sub.1 0.982 18 δ1(d) = −1.0 {a, c, b} 216 624920 Co.sub.1Sb.sub.1Ti.sub.1 1.038 18 δ1(d) = −1.0 {a, c, b} 216 670321 Cu.sub.1Rb.sub.1Te.sub.1 0.063 26 δ1(d) = −1.0 {a, c, b} 216 672074 Fe.sub.1Nb.sub.1Sb.sub.1 0.526 26 δ1(d) = −1.0 {a, c, b} 216 673076 Fe.sub.1Nb.sub.1Sb.sub.1 0.527 26 δ1(d) = −1.0 {a, c, b} 216 83928 Fe.sub.1Nb.sub.1Sb.sub.1 0.528 26 δ1(d) = −1.0 {a, c, b} 216 181131 Fe.sub.1Sb.sub.1V.sub.1 0.301 18 δ1(d) = −1.0 {a, c, b} 216 188964 Ge.sub.1Pt.sub.1Ti.sub.1 0.750 18 δ1(d) = −1.0 {a, c, b} 216 188965 Ge.sub.1Pt.sub.1Ti.sub.1 0.742 18 δ1(d) = −1.0 {a, c, b} 216 670934 Hf.sub.1Ni.sub.1Sn.sub.1 0.304 18 δ1(d) = −1.0 {a, c, b} 216 672837 Hf.sub.1Ni.sub.1Sn.sub.1 0.313 18 δ1(d) = −1.0 {a, c, b} 216 106773 Hf.sub.1Pd.sub.1Sn.sub.1 0.401 18 δ1(d) = −1.0 {a, c, b} 216 44913 Lu.sub.1Ni.sub.1Sb.sub.1 0.199 40 δ1(d) = −1.0 {a, c, b} 216 642458 Lu.sub.1Ni.sub.1Sb.sub.1 0.191 40 δ1(d) = −1.0 {a, c, b} 216 83929 Nb.sub.1Ru.sub.1Sb.sub.1 0.344 26 δ1(d) = −1.0 {a, c, b} 216 672838 Ni.sub.1Sb.sub.1Sc.sub.1 0.241 18 δ1(d) = −1.0 {a, c, b} 216 76695 Ni.sub.1Sb.sub.1Sc.sub.1 0.240 18 δ1(d) = −1.0 {a, c, b} 216 105331 Ni.sub.1Sb.sub.1Y.sub.1 0.260 26 δ1(d) = −1.0 {a, c, b} 216 672839 Ni.sub.1Sb.sub.1Y.sub.1 0.260 26 δ1(d) = −1.0 {a, c, b} 216 174568 Ni.sub.1Sn.sub.1Ti.sub.1 0.439 18 δ1(d) = −1.0 {a, c, b} 216 670932 Ni.sub.1Sn.sub.1Ti.sub.1 0.435 18 δ1(d) = −1.0 {a, c, b} 216 672469 Ni.sub.1Sn.sub.1Ti.sub.1 0.436 18 δ1(d) = −1.0 {a, c, b} 216 672836 Ni.sub.1Sn.sub.1Ti.sub.1 0.440 18 δ1(d) = −1.0 {a, c, b} 216 672973 Ni.sub.1Sn.sub.1Ti.sub.1 0.433 18 δ1(d) = −1.0 {a, c, b} 216 674781 Ni.sub.1Sn.sub.1Ti.sub.1 0.442 18 δ1(d) = −1.0 {a, c, b} 216 670933 Ni.sub.1Sn.sub.1Zr.sub.1 0.479 18 δ1(d) = −1.0 {a, c, b} 216 673865 Ni.sub.1Sn.sub.1Zr.sub.1 0.495 18 δ1(d) = −1.0 {a, c, b} 216 674785 Ni.sub.1Sn.sub.1Zr.sub.1 0.529 18 δ1(d) = −1.0 {a, c, b} 216 2457 O.sub.4S.sub.1Zn.sub.1 4.057 42 δ1(c) = −1.0 {a, d, e} 216 415944 Pd.sub.1Sb.sub.1Sc.sub.1 0.243 18 δ1(d) = −1.0 {a, c, b} 216 77948 Pt.sub.1Sb.sub.1Sc.sub.1 0.532 18 δ1(d) = −1.0 {a, c, b} 216 44970 Pt.sub.1Sb.sub.1Y.sub.1 0.215 26 δ1(d) = −1.0 {a, c, b} 216 649578 Pt.sub.1Sb.sub.1Y.sub.1 0.294 26 δ1(d) = −1.0 {a, c, b} 216 105799 Pt.sub.1Sn.sub.1Ti.sub.1 0.688 18 δ1(d) = −1.0 {a, c, b} 216 52067 Rh.sub.1Sb.sub.1Th.sub.1 0.654 26 δ1(d) = −1.0 {a, c, b} 216 107123 Ru.sub.1Sb.sub.1Ta.sub.1 0.607 18 δ1(d) = −1.0 {a, c, b} 216 107124 Ru.sub.1Sb.sub.1V.sub.1 0.163 18 δ1(d) = −1.0 {a, c, b} 217 70055 Ag6Ge.sub.10P.sub.12 0.501 166 δ1(a) = 1.0 {c, d, e, g} 217 417101 Nb.sub.3Sb.sub.2Te.sub.5 0.783 158 δ1(b) = 1.0 {c, d, e} 220 66831 In.sub.3O.sub.8P.sub.2 3.522 268 δ1(a) = 1.0 {c, d, e} 225 186057 Fe.sub.2Ge.sub.1Ti.sub.1 0.074 24 δ1(d) = −1.0 {a, c, b} 225 65508 H6B6Cs.sub.2 4.158 42 δ1(a) = −1.0 {c, e} 225 65507 H6B6K.sub.2 4.930 42 δ1(a) = −1.0 {c, e} 227 238013 Ag.sub.2Mo.sub.1O.sub.4 2.161 104 δ1(c) = −2.0, δ2(c) = −3.0 {a, d, e} 227 238014 Ag.sub.2Mo.sub.1O.sub.4 1.912 104 δ1(c) = −2.0, δ2(c) = −3.0 {a, d, e} 227 28891 Ag.sub.2Mo.sub.1O.sub.4 1.799 104 δ1(c) = −2.0, δ2(c) = −3.0 {a, d, e} 227 36187 Ag.sub.2Mo.sub.1O.sub.4 0.558 104 δ1(c) = −2.0, δ2(c) = −3.0 {a, d, e} 227 73581 Ag6K.sub.2S.sub.4 1.397 216 δ1(c) = 1.0, δ2(c) = 1.0 {f, d, e} 227 28372 Al.sub.1Cs.sub.1O.sub.2 4.582 48 δ1(d) = 1.0, δ2(d) = 1.0 {a, c, b} 227 262975 Al.sub.1K.sub.1O.sub.2 3.288 48 δ1(d) = 1.0, δ2(d) = 1.0 {a, c, b} 227 28373 Al.sub.1O.sub.2Rb.sub.1 3.769 48 δ1(d) = 1.0, δ2(d) = 1.0 {a, c, b} 227 183382 Al.sub.2Cd.sub.1O.sub.4 2.878 84 δ1(b) = −1.0 {a, d, e} 227 43025 Al.sub.2Cd.sub.1S.sub.4 2.363 84 δ1(b) = −1.0 {a, d, e} 227 51423 Al.sub.2Cd.sub.1Se.sub.4 1.594 84 δ1(b) = −1.0 {a, d, e} 227 51424 Al.sub.2Cd.sub.1Se.sub.4 1.181 84 δ1(b) = −1.0 {a, d, e} 227 606347 Al.sub.2Cd.sub.1Se.sub.4 1.522 84 δ1(a) = −1.0 {c, e, b} 227 608160 Al.sub.2Hg.sub.1S.sub.4 1.611 84 δ1(a) = −1.0 {c, e, b} 227 183397 Al.sub.2Hg.sub.1Se.sub.4 0.303 84 δ1(b) = −1.0 {a, d, e} 227 608163 Al.sub.2Hg.sub.1Se.sub.4 0.585 84 δ1(a) = −1.0 {c, e, b} 227 163268 Al.sub.2O.sub.4Zn.sub.1 4.093 84 δ1(b) = −1.0 {a, d, e} 227 185609 Al.sub.2O.sub.4Zn.sub.1 3.815 84 δ1(b) = −1.0 {a, d, e} 227 185709 Al.sub.2O.sub.4Zn.sub.1 4.092 84 δ1(b) = −1.0 {a, d, e} 227 187878 Al.sub.2O.sub.4Zn.sub.1 4.093 84 δ1(b) = −1.0 {a, d, e} 227 196109 Al.sub.2O.sub.4Zn.sub.1 4.090 84 δ1(b) = −1.0 {a, d, e} 227 24494 Al.sub.2O.sub.4Zn.sub.1 3.359 84 δ1(b) = −1.0 {a, d, e} 227 26849 Al.sub.2O.sub.4Zn.sub.1 4.098 84 δ1(b) = −1.0 {a, d, e} 227 26856 Al.sub.2O.sub.4Zn.sub.1 4.033 84 δ1(b) = −1.0 {a, d, e} 227 290016 Al.sub.2O.sub.4Zn.sub.1 4.400 84 δ1(b) = −1.0 {a, d, e} 227 290666 Al.sub.2O.sub.4Zn.sub.1 3.460 84 δ1(b) = −1.0 {a, d, e} 227 290967 Al.sub.2O.sub.4Zn.sub.1 4.102 84 δ1(b) = −1.0 {a, d, e} 227 56118 Al.sub.2O.sub.4Zn.sub.1 3.839 84 δ1(b) = −1.0 {a, d, e} 227 609005 Al.sub.2O.sub.4Zn.sub.1 3.834 84 δ1(b) = −1.0 {a, d, e} 227 94155 Al.sub.2O.sub.4Zn.sub.1 4.042 84 δ1(b) = −1.0 {a, d, e} 227 94156 Al.sub.2O.sub.4Zn.sub.1 4.049 84 δ1(a) = −1.0 {c, e, b} 227 94157 Al.sub.2O.sub.4Zn.sub.1 4.046 84 δ1(a) = −1.0 {c, e, b} 227 94158 Al.sub.2O.sub.4Zn.sub.1 4.061 84 δ1(b) = −1.0 {a, d, e} 227 94159 Al.sub.2O.sub.4Zn.sub.1 4.088 84 δ1(b) = −1.0 {a, d, e} 227 94160 Al.sub.2O.sub.4Zn.sub.1 4.114 84 δ1(b) = −1.0 {a, d, e} 227 94161 Al.sub.2O.sub.4Zn.sub.1 4.148 84 δ1(b) = −1.0 {a, d, e} 227 94162 Al.sub.2O.sub.4Zn.sub.1 4.197 84 δ1(b) = −1.0 {a, d, e} 227 94163 Al.sub.2O.sub.4Zn.sub.1 4.237 84 δ1(b) = −1.0 {a, d, e} 227 94164 Al.sub.2O.sub.4Zn.sub.1 4.294 84 δ1(a) = −1.0 {c, e, b} 227 94165 Al.sub.2O.sub.4Zn.sub.1 4.373 84 δ1(b) = −1.0 {a, d, e} 227 94166 Al.sub.2O.sub.4Zn.sub.1 4.421 84 δ1(b) = −1.0 {a, d, e} 227 94167 Al.sub.2O.sub.4Zn.sub.1 4.467 84 δ1(b) = −1.0 {a, d, e} 227 94168 Al.sub.2O.sub.4Zn.sub.1 4.492 84 δ1(b) = −1.0 {a, d, e} 227 94169 Al.sub.2O.sub.4Zn.sub.1 4.525 84 δ1(b) = −1.0 {a, d, e} 227 94170 Al.sub.2O.sub.4Zn.sub.1 4.536 84 δ1(b) = −1.0 {a, d, e} 227 94171 Al.sub.2O.sub.4Zn.sub.1 4.552 84 δ1(b) = −1.0 {a, d, e} 227 94172 Al.sub.2O.sub.4Zn.sub.1 4.538 84 δ1(b) = −1.0 {a, d, e} 227 94173 Al.sub.2O.sub.4Zn.sub.1 4.598 84 δ1(b) = −1.0 {a, d, e} 227 94174 Al.sub.2O.sub.4Zn.sub.1 4.640 84 δ1(a) = −1.0 {c, e, b} 227 94175 Al.sub.2O.sub.4Zn.sub.1 4.674 84 δ1(b) = −1.0 {a, d, e} 227 94176 Al.sub.2O.sub.4Zn.sub.1 4.723 84 δ1(a) = −1.0 {c, e, b} 227 94177 Al.sub.2O.sub.4Zn.sub.1 4.754 84 δ1(b) = −1.0 {a, d, e} 227 94178 Al.sub.2O.sub.4Zn.sub.1 4.792 84 δ1(b) = −1.0 {a, d, e} 227 94179 Al.sub.2O.sub.4Zn.sub.1 4.827 84 δ1(a) = −1.0 {c, e, b} 227 94180 Al.sub.2O.sub.4Zn.sub.1 4.870 84 δ1(b) = −1.0 {a, d, e} 227 94181 Al.sub.2O.sub.4Zn.sub.1 4.926 84 δ1(b) = −1.0 {a, d, e} 227 94182 Al.sub.2O.sub.4Zn.sub.1 5.012 84 δ1(b) = −1.0 {a, d, e} 227 94183 Al.sub.2O.sub.4Zn.sub.1 5.069 84 δ1(a) = −1.0 {c, e, b} 227 15377 Al.sub.2S.sub.4Zn.sub.1 2.159 84 δ1(a) = −1.0 {c, e, b} 227 35380 Al.sub.2S.sub.4Zn.sub.1 2.484 84 δ1(b) = −1.0 {a, d, e} 227 44889 Al.sub.2S.sub.4Zn.sub.1 2.452 84 δ1(b) = −1.0 {a, d, e} 227 609270 Al.sub.2S.sub.4Zn.sub.1 2.507 84 δ1(a) = −1.0 {c, e, b} 227 609272 Al.sub.2S.sub.4Zn.sub.1 2.504 84 δ1(a) = −1.0 {c, e, b} 227 609276 Al.sub.2S.sub.4Zn.sub.1 2.505 84 δ1(a) = −1.0 {c, e, b} 227 609283 Al.sub.2S.sub.4Zn.sub.1 2.505 84 δ1(a) = −1.0 {c, e, b} 227 76278 Al.sub.2S.sub.4Zn.sub.1 2.455 84 δ1(b) = −1.0 {a, d, e} 227 609325 Al.sub.2Se.sub.4Zn.sub.1 1.461 84 δ1(a) = −1.0 {c, e, b} 227 238638 As.sub.4He.sub.2O6 4.164 120 δ2(d) = −1.0 {f, c, e} 227 238639 As.sub.4He.sub.2O6 4.249 120 δ2(d) = −1.0 {f, c, e} 227 238640 As.sub.4He.sub.2O6 4.306 120 δ2(d) = −1.0 {f, c, e} 227 66868 Ba.sub.2Ge.sub.4S.sub.10 2.131 192 δ1(c) = 1.0, δ2(c) = 1.0 {f, d, e} 227 159739 Cd.sub.1Ga.sub.2O.sub.4 1.568 84 δ1(b) = −1.0 {a, d, e} 227 159740 Cd.sub.1In.sub.2O.sub.4 0.950 84 δ1(b) = −1.0 {a, d, e} 227 4118 Cd.sub.1In.sub.2O.sub.4 1.124 84 δ1(b) = −1.0 {a, d, e} 227 108215 Cd.sub.1In.sub.2S.sub.4 1.475 84 δ1(a) = −1.0 {c, e, b} 227 601181 Cd.sub.1In.sub.2S.sub.4 1.393 84 δ1(a) = −1.0 {c, e, b} 227 620025 Cd.sub.1In.sub.2S.sub.4 1.401 84 δ1(a) = −1.0 {c, e, b} 227 620027 Cd.sub.1In.sub.2S.sub.4 1.365 84 δ1(a) = −1.0 {c, e, b} 227 620029 Cd.sub.1In.sub.2S.sub.4 1.394 84 δ1(a) = −1.0 {c, e, b} 227 52811 Cd.sub.1In.sub.2Se.sub.4 0.282 84 δ1(b) = −1.0 {a, d, e} 227 37410 Cd.sub.1Lu.sub.2S.sub.4 0.961 172 δ1(b) = −1.0, δ1(c) = 3.0, δ2(c) = 6.0 {a, d, e} 227 620127 Cd.sub.1Lu.sub.2S.sub.4 1.009 172 δ1(a) = −1.0, δ1(d) = 3.0, δ2(d) = 6.0 {c, e, b} 227 620129 Cd.sub.1Lu.sub.2Se.sub.4 0.465 172 δ1(a) = −1.0, δ1(d) = 3.0, δ2(d) = 6.0 {c, e, b} 227 262941 Cd.sub.1O.sub.4Rh.sub.2 0.856 108 δ1(b) = −1.0, δ1(c) = −1.0, δ2(c) = −2.0 {a, d, e} 227 28954 Cd.sub.1O.sub.4Rh.sub.2 0.846 108 δ1(b) = −1.0, δ1(c) = −1.0, δ2(c) = −2.0 {a, d, e} 227 620332 Cd.sub.1S.sub.4Sc.sub.2 0.865 84 δ1(a) = −1.0 {c, e, b} 227 94994 Cd.sub.1S.sub.4Sc.sub.2 0.862 84 δ1(b) = −1.0 {a, d, e} 227 620370 Cd.sub.1S.sub.4Y.sub.2 1.048 116 δ1(a) = −1.0, δ1(d) = 1.0, δ2(d) = 1.0 {c, e, b} 227 620371 Cd.sub.1S.sub.4Y.sub.2 1.048 116 δ1(a) = −1.0, δ1(d) = 1.0, δ2(d) = 1.0 {c, e, b} 227 620411 Cd.sub.1Sc.sub.2Se.sub.4 0.264 84 δ1(a) = −1.0 {c, e, b} 227 620457 Cd.sub.1Se.sub.4Y.sub.2 0.451 116 δ1(a) = −1.0, δ1(d) = 1.0, δ2(d) = 1.0 {c, e, b} 227 161025 Cd.sub.2O.sub.4Si.sub.1 1.423 104 δ1(c) = −2.0, δ2(c) = −3.0 {a, d, e} 227 191508 Cd.sub.2O.sub.4Si.sub.1 1.255 104 δ1(c) = −2.0, δ2(c) = −3.0 {a, d, e} 227 187040 Cd.sub.2O.sub.4Sn.sub.1 0.880 104 δ1(c) = −2.0, δ2(c) = −3.0 {a, d, e} 227 202743 Cl.sub.4Li.sub.2Zn.sub.1 4.212 84 δ1(b) = −1.0 {a, d, e} 227 402398 Cl.sub.4Li.sub.2Zn.sub.1 4.236 84 δ1(b) = −1.0 {a, d, e} 227 72546 Cs.sub.1N.sub.2Nb.sub.1 1.813 64 δ1(d) = 1.0, δ2(d) = 1.0 {a, c, b} 227 187290 Ga.sub.2O.sub.4Zn.sub.1 2.515 84 δ1(b) = −1.0 {a, d, e} 227 290017 Ga.sub.2O.sub.4Zn.sub.1 2.751 84 δ1(b) = −1.0 {a, d, e} 227 290667 Ga.sub.2O.sub.4Zn.sub.1 1.975 84 δ1(b) = −1.0 {a, d, e} 227 432270 Ga.sub.2O.sub.4Zn.sub.1 2.659 84 δ1(b) = −1.0 {a, d, e} 227 81105 Ga.sub.2O.sub.4Zn.sub.1 2.670 84 δ1(a) = −1.0 {c, e, b} 227 81106 Ga.sub.2O.sub.4Zn.sub.1 2.670 84 δ1(a) = −1.0 {c, e, b} 227 81107 Ga.sub.2O.sub.4Zn.sub.1 2.652 84 δ1(b) = −1.0 {a, d, e} 227 81108 Ga.sub.2O.sub.4Zn.sub.1 2.657 84 δ1(b) = −1.0 {a, d, e} 227 81109 Ga.sub.2O.sub.4Zn.sub.1 2.668 84 δ1(b) = −1.0 {a, d, e} 227 81110 Ga.sub.2O.sub.4Zn.sub.1 2.650 84 δ1(b) = −1.0 {a, d, e} 227 81111 Ga.sub.2O.sub.4Zn.sub.1 2.652 84 δ1(b) = −1.0 {a, d, e} 227 81112 Ga.sub.2O.sub.4Zn.sub.1 2.628 84 δ1(b) = −1.0 {a, d, e} 227 81113 Ga.sub.2O.sub.4Zn.sub.1 2.631 84 δ1(b) = −1.0 {a, d, e} 227 9394 Ga.sub.2O.sub.4Zn.sub.1 2.676 84 δ1(b) = −1.0 {a, d, e} 227 56081 Hg.sub.1In.sub.2S.sub.4 0.736 84 δ1(b) = −1.0 {a, d, e} 227 290668 In.sub.2O.sub.4Zn.sub.1 1.132 84 δ1(b) = −1.0 {a, d, e} 227 15637 In.sub.2O.sub.4Zn.sub.1 0.559 84 δ1(a) = −1.0 {c, e, b} 227 81811 In.sub.2O.sub.4Zn.sub.1 1.318 84 δ1(b) = −1.0 {a, d, e} 227 44679 K.sub.8Sb.sub.4Sn.sub.1 0.214 192 δ1(d) = 1.0, δ2(d) = 1.0 {f, c, a, e} 227 37420 Lu.sub.2Mg.sub.1S.sub.4 1.542 152 δ1(d) = 3.0, δ2(d) = 6.0 {c, e, b} 227 44912 Lu.sub.2Mg.sub.1Se.sub.4 1.224 152 δ1(c) = 3.0, δ2(c) = 6.0 {a, d, e} 227 109299 Mg.sub.1O.sub.4Rh.sub.2 1.150 88 δ1(c) = −1.0, δ2(c) = −2.0 {a, d, e} 227 76052 Mg.sub.1Se.sub.4Y.sub.2 1.062 96 δ1(c) = 1.0, δ2(c) = 1.0 {a, d, e} 227 109298 O.sub.4Rh.sub.2Zn.sub.1 0.899 108 δ1(b) = −1.0, δ1(c) = −1.0, δ2(c) = −2.0 {a, d, e} 227 161024 O.sub.4Si.sub.1Zn.sub.2 2.925 104 δ1(c) = −2.0, δ2(c) = −3.0 {a, d, e} 227 167193 O.sub.4Si.sub.1Zn.sub.2 2.825 104 δ1(c) = −2.0, δ2(c) = −3.0 {a, d, e} 227 191507 O.sub.4Si.sub.1Zn.sub.2 2.619 104 δ1(c) = −2.0, δ2(c) = −3.0 {a, d, e} 227 187039 O.sub.4Sn.sub.1Zn.sub.2 0.493 104 δ1(c) = −2.0, δ2(c) = −3.0 {a, d, e} 227 650850 S.sub.4Sc.sub.2Zn.sub.1 0.523 84 δ1(a) = −1.0 {c, e, b} 227 650852 S.sub.4Sc.sub.2Zn.sub.1 0.520 84 δ1(a) = −1.0 {c, e, b} 227 651411 S.sub.4Y.sub.2Zn.sub.1 0.485 116 δ1(a) = −1.0, δ1(d) = 1.0, δ2(d) = 1.0 {c, e, b} 227 652188 Se.sub.4Y.sub.2Zn.sub.1 0.103 116 δ1(a) = −1.0, δ1(d) = 1.0, δ2(d) = 1.0 {c, e, b} 2 170639 Ag.sub.1Bi.sub.1P.sub.2S6 0.927 124 δ1(c) = 1.0, δ1(f) = 1.0 {i} 2 154804 As.sub.1Cl.sub.3F6S.sub.3 0.122 172 δ1(d) = −1.0, δ1(h) = −1.0 {i} 2 75451 As.sub.1Cl.sub.3F6S.sub.3 0.122 172 δ1(d) = −1.0, δ1(h) = −1.0 {i} 2 291309 As.sub.2Cd.sub.1Ge.sub.1K.sub.1 0.740 140 δ1(c) = 1.0, δ1(g) = 1.0 {i} 2 291310 As.sub.2Cd.sub.1Ge.sub.1Rb.sub.1 0.771 140 δ1(c) = 1.0, δ1(g) = 1.0 {i} 2 410759 B.sub.18Cs.sub.4Hg.sub.2Se.sub.18 2.059 222 δ1(f) = −1.0 {i} 2 410758 B.sub.18Hg.sub.2Rb.sub.4Se.sub.18 2.086 222 δ1(f) = −1.0 {i} 2 237524 B.sub.3Cu.sub.1Li.sub.3O7 0.400 130 δ1(b) = −1.0 {i} 2 401906 Br.sub.10O.sub.1Ta.sub.2Te.sub.4 0.915 110 δ1(a) = 1.0 {h, i} 2 171405 C.sub.10H.sub.18Cu.sub.2N.sub.2O.sub.10 0.538 150 δ1(c) = −1.0 {i} 2 172423 C.sub.10H.sub.18Cu.sub.2N.sub.2O.sub.10 0.541 150 δ1(h) = −1.0 {i} 2 172424 C.sub.10H.sub.18N.sub.2O.sub.10Rh.sub.2 1.707 146 δ1(a) = 1.0 {i} 2 98942 C.sub.1F.sub.3Hg.sub.1O.sub.3S.sub.1 3.051 122 δ1(b) = 1.0 {i} 2 161194 C.sub.1H.sub.5Eu.sub.1O7P.sub.1 0.518 146 δ1(b) = 1.0 {i} 2 161195 C.sub.1H.sub.5Nd.sub.1O7P.sub.1 0.152 140 δ1(b) = 1.0 {i} 2 161196 C.sub.1H.sub.5O7P.sub.1Pr.sub.1 0.040 138 δ1(b) = 1.0 {i} 2 158855 C.sub.2H.sub.10Ga.sub.2Ge.sub.4N.sub.2O.sub.12 3.729 122 δ1(e) = 1.0 {i} 2 174167 C.sub.2H.sub.26B.sub.12N.sub.8 5.034 110 δ1(d) = −1.0 {i} 2 159351 C.sub.2H6Ca.sub.1O7 3.625 116 δ1(c) = 1.0, δ1(h) = 1.0 {i} 2 77096 C.sub.2H6Ca.sub.1O7 3.388 116 δ1(c) = 1.0, δ1(h) = 1.0 {i} 2 250237 C.sub.2H6K.sub.2O.sub.13S.sub.1U.sub.1 1.335 260 δ1(a) = 1.0, δ1(e) = 1.0 {i} 2 172777 C.sub.2H6O.sub.12U.sub.2 1.938 114 δ1(g) = 1.0 {i} 2 110471 C.sub.2H.sub.8Br.sub.3Cu.sub.1N.sub.1O.sub.1 0.004 118 δ1(f) = −1.0 {i} 2 249780 C.sub.2H.sub.8In.sub.2O.sub.14Se.sub.2 3.400 118 δ1(a) = 1.0 {i} 2 250206 C.sub.3H7F.sub.1N.sub.1O.sub.5Sn.sub.1 2.841 130 δ1(b) = 1.0 {i} 2 237040 C.sub.4H.sub.11N.sub.1O.sub.10 3.140 184 δ1(d) = 1.0, δ1(e) = 1.0 {i} 2 237041 C.sub.4H.sub.11N.sub.1O.sub.10 3.252 184 δ1(d) = 1.0, δ1(e) = 1.0 {i} 2 249174 C.sub.4H.sub.11N.sub.1O.sub.10 2.925 184 δ1(f) = 1.0, δ1(h) = 1.0 {i} 2 59807 C.sub.4H.sub.12Ba.sub.2N.sub.2O.sub.10S.sub.2 2.863 130 δ1(f) = 1.0 {i} 2 203234 C.sub.4H.sub.12Fe.sub.1O6S.sub.4 0.730 96 δ1(b) = −1.0 {a, i} 2 183813 C.sub.4H.sub.12N6O.sub.14Se.sub.2U.sub.2 1.785 182 δ1(b) = 1.0 {i} 2 109495 C.sub.4H.sub.14F.sub.3N.sub.1O.sub.2V.sub.1 0.005 146 δ1(d) = 1.0 {i} 2 110428 C.sub.4H.sub.16C.sub.16Cu.sub.2N.sub.2 0.017 212 δ1(a) = −1.0, δ1(g) = −1.0 {i} 2 30930 C.sub.4H7Cs.sub.1O.sub.10 1.762 184 δ1(d) = 1.0, δ1(e) = 1.0 {i} 2 246803 C.sub.4H7K.sub.1O.sub.10 2.279 184 δ1(d) = 1.0, δ1(e) = 1.0 {i} 2 195083 C.sub.5H.sub.10N.sub.1O6 2.451 142 δ1(c) = 1.0 {i} 2 109824 C6F6Na.sub.4O.sub.12Sn.sub.4 2.367 158 δ1(d) = 1.0 {i} 2 168722 C6H.sub.12Fe.sub.1N.sub.8O.sub.8 1.122 132 δ1(f) = 1.0 {h, i} 2 159906 C6H.sub.4Na.sub.4Np.sub.2O.sub.18 0.009 170 δ1(c) = 1.0 {i} 2 152170 C.sub.8H.sub.20N6O.sub.18S.sub.2U.sub.2 1.485 230 δ1(d) = 1.0 {i} 2 109491 C.sub.8H.sub.28F6N.sub.2O.sub.4V.sub.2 0.035 146 δ1(g) = 1.0 {i} 2 110165 C.sub.8H.sub.28F6N.sub.2O.sub.4V.sub.2 0.035 146 δ1(g) = 1.0 {i} 2 170794 C.sub.8H.sub.4K6N.sub.8O6Os.sub.2S.sub.2 2.351 194 δ1(f) = 1.0 {i} 2 36 C.sub.8I.sub.2Mo.sub.2O.sub.8 0.664 212 δ1(a) = 1.0, δ1(h) = 1.0 {i} 2 47102 Cl.sub.10Mo.sub.2N.sub.4S.sub.4 0.516 126 δ1(c) = 1.0 {i} 2 49920 Cl.sub.10Nb.sub.2O.sub.1Te.sub.4 1.136 126 δ1(a) = 1.0 {h, i} 2 72781 Cl.sub.2N.sub.4O.sub.12S.sub.10 1.127 166 δ1(a) = −1.0 {i} 2 241454 Cs.sub.2P.sub.2Se6Zn.sub.1 1.925 152 δ1(a) = 1.0, δ1(b) = 1.0 {i} 2 62966 Cu.sub.1O.sub.9Se.sub.3Sr.sub.2 0.076 206 δ1(g) = −1.0 {i} 2 240930 Cu.sub.2Na.sub.2O.sub.11Si.sub.4 0.068 106 δ1(d) = −1.0 {b, i} 2 174513 F.sub.2N.sub.2O.sub.4Xe.sub.1 2.623 56 δ1(h) = 1.0 {a, i} 2 173748 F.sub.2O7Te.sub.2V.sub.2 0.063 78 δ1(g) = 1.0 {c, i} 2 97067 H.sub.10F.sub.8In.sub.2N.sub.2O.sub.2 4.719 94 δ1(a) = 1.0 {i} 2 32507 H.sub.12I.sub.8Mg.sub.1O6 1.203 106 δ1(f) = 1.0 {a, i} 2 1834 H.sub.12Mg.sub.1O.sub.12S.sub.2 5.456 98 δ1(h) = 1.0 {a, i} 2 1836 H.sub.12O.sub.12S.sub.2Zn.sub.1 4.242 108 δ1(h) = 1.0 {a, i} 2 412799 H.sub.14Hg.sub.2O.sub.14Te.sub.2 3.271 134 δ1(f) = 1.0 {a, i, g} 2 73623 H.sub.14N.sub.4O.sub.8S.sub.2 4.941 94 δ1(b) = 1.0 {i} 2 168493 H.sub.16B.sub.12Na.sub.2O.sub.14S6 2.216 174 δ1(f) = −1.0 {i} 2 424875 H.sub.18O.sub.12Se.sub.4Sn.sub.1Sr.sub.2 0.652 138 δ1(g) = 1.0 {c, i} 2 409556 H.sub.24Li.sub.2N.sub.8Te.sub.2 1.237 78 δ1(e) = 1.0 {i} 2 67549 H.sub.26B.sub.20K.sub.4O.sub.4 0.573 146 δ1(c) = 1.0 {i} 2 170179 H.sub.32N.sub.14Se6Sn.sub.2 1.865 146 δ1(a) = 1.0 {i} 2 49621 H.sub.34Cl.sub.4Cr.sub.2N.sub.8O6 0.290 150 δ1(a) = −1.0 {i} 2 154123 H.sub.4Cu.sub.2Na.sub.2O.sub.13Si.sub.4 0.087 122 δ1(a) = −1.0 {f, i} 2 414048 H.sub.4Cu.sub.2Na.sub.2O.sub.13Si.sub.4 0.083 122 δ1(d) = −1.0 {b, i} 2 49614 H6B.sub.2F.sub.8N.sub.2 7.541 78 δ1(a) = 1.0 {i} 2 423683 H6Cs.sub.2O.sub.12P.sub.4 4.742 116 δ1(b) = 1.0, δ1(c) = 1.0 {i} 2 429157 H6F.sub.22N.sub.2Sb.sub.4 4.826 190 δ1(b) = 1.0 {i} 2 423682 H6O.sub.12P.sub.4Rb.sub.2 5.425 116 δ1(b) = 1.0, δ1(c) = 1.0 {i} 2 79097 H.sub.8Na6O.sub.14P.sub.4 3.552 118 δ1(d) = 1.0 {i} 2 87486 K.sub.4Mn.sub.1Mo.sub.3O.sub.12 0.021 266 δ1(a) = 1.0 {f, b, i} 2 16879 K.sub.4N.sub.2O.sub.14S.sub.4 0.440 154 δ1(h) = −1.0 {i} 2 431529 Lu.sub.1Na.sub.1P.sub.2S6 2.550 144 δ1(c) = 1.0, δ1(:0 = 1.0 {i} 2 431532 Na.sub.1P.sub.2S6Tb.sub.1 0.075 132 δ1(a) = 1.0, δ1(h) = 1.0 {i} 2 431533 Na.sub.1P.sub.2S6Y.sub.1 2.548 116 δ1(b) = 1.0, δ1(e) = 1.0 {i} 2 241453 P.sub.2Rb.sub.2Se6Zn.sub.1 1.904 152 δ1(a) = 1.0, δ1(b) = 1.0 {i} 11 249033 C.sub.4H.sub.3Cs.sub.1O.sub.14U.sub.2 1.822 280 δ1(b) = 1.0, δ1(c) = 1.0 {f, e} 11 249031 C.sub.4H.sub.5K.sub.1O.sub.15U.sub.2 1.810 296 δ1(a) = 1.0, δ1(d) = 1.0 {f, e} 11 249032 C.sub.4H.sub.5O.sub.15Rb.sub.1U.sub.2 1.777 296 δ1(a) = 1.0, δ1(d) = 1.0 {f, e} 11 32656 Cs.sub.2Cu.sub.2O.sub.19S.sub.18 0.351 372 δ1(a) = −1.0 {f, d, e} 11 99599 Cu.sub.2Ge.sub.4O.sub.13Sc.sub.2 0.176 244 δ1(a) = −1.0 {f, e} 11 99600 Cu.sub.2Ge.sub.4O.sub.13Sc.sub.2 0.172 244 δ1(a) = −1.0 {f, e} 11 99601 Cu.sub.2Ge.sub.4O.sub.13Sc.sub.2 0.168 244 δ1(a) = −1.0 {f, e} 11 99602 Cu.sub.2Ge.sub.4O.sub.13Sc.sub.2 0.169 244 δ1(a) = −1.0 {f, e} 11 99603 Cu.sub.2Ge.sub.4O.sub.13Sc.sub.2 0.165 244 δ1(a) = −1.0 {f, e} 11 406200 K.sub.3P.sub.5Ru.sub.1Se.sub.10 0.934 240 δ1(b) = 1.0 {f, e} 12 171256 Ag.sub.2Br6Hg7P.sub.8 0.911 188 δ1(d) = −1.0 {c, j, e, i} 12 171257 Ag.sub.2Hg7I6P.sub.8 0.820 188 δ1(d) = −1.0 {c, i, e, i} 12 165322 Au.sub.2K.sub.2P.sub.2Se6 1.085 86 δ1(c) = −1.0 {j, i, g} 12 423802 Au.sub.2La.sub.4O.sub.2P.sub.4 0.100 98 δ1(d) = −1.0 {i} 12 171216 Au.sub.2P.sub.2Se6Tl.sub.2 1.035 74 δ1(c) = −1.0 {j, i, g} 12 99805 C.sub.2Cl.sub.2O.sub.4Pb.sub.2 2.742 54 δ1(d) = −1.0 {h, j, i} 12 261774 C.sub.2H.sub.2Ag.sub.1O.sub.9S.sub.1Tb.sub.1 0.094 200 δ1(a) = −1.0, δ1(d) = −1.0 {h, j, i} 12 95291 C.sub.2H.sub.4Ca.sub.2Cl.sub.2O6 3.535 66 δ1(d) = −1.0 {h, j, i, g} 12 425117 C.sub.2H6N.sub.2Rb.sub.2 3.945 84 δ1(b) = 1.0, δ1(c) = 1.0 {j, i} 12 151090 C.sub.4H6B.sub.12Cs.sub.2I.sub.12N.sub.2 1.842 170 δ1(b) = 1.0 {h, j, i} 12 172053 C.sub.4H.sub.8N.sub.2O.sub.4 2.933 58 δ1(a) = 1.0 {h, j, i} 12 172054 C.sub.4H.sub.8N.sub.2O.sub.4 2.932 58 δ1(d) = 1.0 {j, i, g} 12 163689 H.sub.20B.sub.12Li.sub.2O.sub.4 5.312 82 δ1(a) = 1.0 {h, j, i} 12 163690 H.sub.20B.sub.12Li.sub.2O.sub.4 5.403 82 δ1(a) = 1.0 {h, j, i} 12 248034 In.sub.1K.sub.2P.sub.2S7 2.052 146 δ1(a) = −1.0 {j, i, g} 12 195314 La.sub.2P.sub.4S.sub.14Tl.sub.4 2.035 138 δ1(d) = −1.0 {j, i} 13 109996 C.sub.8H.sub.12Ag.sub.2N.sub.4O.sub.4 2.370 220 δ1(d) = 1.0 {a, f, e, g} 14 431760 Ag.sub.1As.sub.1K.sub.1S.sub.2 1.748 148 δ1(d) = 1.0 {e} 14 165596 Ag.sub.1Cu.sub.1O.sub.1P.sub.1 0.083 204 δ1(b) = −1.0 {e} 14 165361 Ag.sub.2Cs.sub.2P.sub.2Se6 1.621 172 δ1(a) = 1.0 {e} 14 84733 Ag.sub.2O.sub.8P.sub.2V.sub.1 0.014 340 δ1(c) = 1.0 {e} 14 195332 Ag.sub.2P.sub.2Se6Tl.sub.2 1.371 296 δ1(a) = 1.0, δ1(d) = 1.0 {e} 14 91551 Al.sub.1As.sub.1Cu.sub.1O.sub.5 0.315 196 δ1(b) = −1.0 {e} 14 196430 Al.sub.1Cu.sub.1O.sub.8P.sub.2Rb.sub.1 0.096 324 δ1(c) = −1.0 {e} 14 38378 Al.sub.2Br6N.sub.2S.sub.2 1.889 140 δ1(b) = 1.0 {e} 14 82802 Al.sub.2Br6N.sub.2Se.sub.2 1.939 140 δ1(a) = 1.0 {e} 14 4043 As.sub.1F6N.sub.2S.sub.3 1.346 300 δ1(a) = −1.0 {e} 14 421269 Ba.sub.1La.sub.1Sb.sub.2Se6 0.493 268 δ1(a) = 1.0 {e} 14 153066 Ba.sub.1Mo.sub.2O.sub.16P.sub.4 0.034 276 δ1(a) = 1.0 {d, e} 14 61132 C.sub.10F.sub.4Mn.sub.2O.sub.8 2.675 260 δ1(c) = 1.0 {e} 14 65278 C.sub.12Bi.sub.2O.sub.12Ru.sub.4 1.144 324 δ1(c) = 1.0 {e} 14 69074 C.sub.12Bi.sub.2O.sub.12Ru.sub.4 1.144 324 δ1(c) = 1.0 {e} 14 50969 C.sub.1O6P.sub.1Sn.sub.2 2.261 212 δ1(d) = 1.0 {e} 14 420263 C.sub.2As.sub.2F.sub.12N.sub.2Te.sub.4 1.673 272 δ1(a) = 1.0, δ1(d) = 1.0 {e} 14 279638 C.sub.2Cl.sub.10N.sub.2Sb.sub.2 2.333 196 δ1(a) = 1.0 {e} 14 26526 C.sub.2Cu.sub.1O6Tl.sub.2 0.107 244 δ1(b) = 1.0 {e} 14 66367 C.sub.2F6N.sub.4O6S.sub.4Se.sub.4 1.443 308 δ1(c) = −1.0 {e} 14 72782 C.sub.2F6N.sub.4O6S.sub.8 1.205 308 δ1(d) = −1.0 {e} 14 39364 C.sub.2H.sub.1Cs.sub.1O.sub.4 0.236 168 δ1(c) = 1.0, δ1(d) = 1.0 {e} 14 246301 C.sub.2H.sub.2Na.sub.2O6 3.406 96 δ1(a) = 1.0, δ1(c) = 1.0 {e} 14 39365 C.sub.2H.sub.4Cs.sub.2O6 3.725 132 δ1(d) = 1.0 {e} 14 409803 C.sub.2H.sub.4F6O6S.sub.2Si.sub.2 5.851 220 δ1(c) = 1.0 {e} 14 150181 C.sub.2H.sub.4Fe.sub.4O.sub.12P.sub.2 0.208 276 δ1(d) = 1.0 {e} 14 59806 C.sub.2H.sub.4O.sub.14P.sub.2Zn.sub.4 3.513 308 δ1(c) = 1.0 {e} 14 425116 C.sub.2H6K.sub.2N.sub.2 3.955 84 δ1(d) = −1.0 {e} 14 253542 C.sub.2H6K.sub.4N.sub.8O.sub.10 3.512 300 δ1(d) = 1.0 {e} 14 239363 C.sub.3H.sub.2Na.sub.1O7Zn.sub.1 3.272 276 δ1(a) = 1.0 {e} 14 162709 C.sub.3H.sub.3Ba.sub.1O7 2.840 268 δ1(b) = 1.0 {e} 14 432232 C.sub.4H.sub.12Cl.sub.8Nb.sub.2S.sub.2 0.729 244 δ1(b) = 1.0 {e} 14 281782 C.sub.4H.sub.18B.sub.2P.sub.2 5.866 100 δ1(c) = 1.0 {e} 14 109774 C.sub.4H.sub.2Fe.sub.2O6 0.266 140 δ1(c) = −1.0 {e} 14 251788 C.sub.4H.sub.2O.sub.8Tl.sub.2 2.322 144 δ1(c) = 1.0, δ1(d) = 1.0 {e} 14 243750 C6H.sub.10O6Sn.sub.1 2.784 148 δ1(c) = −1.0 {a, e} 14 260040 C6H.sub.4Mg.sub.2Na.sub.2O.sub.14 3.678 236 δ1(d) = 1.0 {e} 14 174509 C6O.sub.16Rb.sub.2U.sub.2 1.709 332 δ1(b) = 1.0 {e} 14 82090 Cd.sub.1Mo.sub.1O6P.sub.1 1.506 236 δ1(a) = 1.0 {e} 14 50959 Cd.sub.1P.sub.2Rb.sub.2Se6 2.029 152 δ1(c) = 1.0 {d, e} 14 15320 Cl.sub.12Mo.sub.2O.sub.4P.sub.2 0.046 260 δ1(c) = 1.0 {e} 14 249982 Cs.sub.2O.sub.12P.sub.2U.sub.2 0.042 204 δ1(a) = −1.0 {c, e} 14 280814 Cs.sub.4O.sub.2S.sub.10V.sub.2 1.477 236 δ1(d) = 1.0 {e} 14 171220 Cu.sub.1P.sub.1Se.sub.3Tl.sub.1 1.369 148 δ1(d) = 1.0 {e} 14 195339 Cu.sub.2P.sub.2S6Tl.sub.2 1.707 148 δ1(c) = 1.0 {e} 14 195340 Cu.sub.2P.sub.2Se6Tl.sub.2 1.377 148 δ1(a) = 1.0 {e} 14 31789 F.sub.2N.sub.4O6S.sub.8 1.119 236 δ1(c) = −1.0 {e} 14 15285 Fe.sub.1I.sub.1N.sub.2O.sub.2 0.335 296 δ1(a) = 1.0, δ1(b) = 1.0 {e} 14 300226 Fe.sub.1K.sub.2P.sub.2S6 0.463 144 δ1(d) = 1.0 {c, e} 14 657803 Fe.sub.1K.sub.2P.sub.2S6 0.463 144 δ1(d) = 1.0 {c, e} 14 165358 Fe.sub.1K.sub.2P.sub.2Se6 0.343 144 δ1(b) = 1.0 {a, e} 14 62320 Fe.sub.2K.sub.1O.sub.8P.sub.2 0.007 332 δ1(c) = 1.0 {e} 14 61783 H.sub.10Br.sub.2N.sub.2O.sub.2 4.032 92 δ1(d) = 1.0 {e} 14 61784 H.sub.10Br.sub.2N.sub.2O.sub.2 4.066 92 δ1(d) = 1.0 {e} 14 14169 H.sub.10N.sub.2O.sub.8P.sub.2 5.896 156 δ1(c) = 1.0 {e} 14 2913 H.sub.10N.sub.2O.sub.8P.sub.2 5.805 156 δ1(d) = 1.0 {e} 14 6211 H.sub.12N.sub.4O.sub.4P.sub.2 1.665 132 δ1(c) = 1.0 {e} 14 417327 H.sub.12O6P.sub.2Rb.sub.4S6 3.433 260 δ1(a) = 1.0 {e} 14 190007 H.sub.14Ni.sub.1O.sub.12P.sub.2 0.009 212 δ1(c) = 1.0 {e, b} 14 422482 H.sub.2Hg6N.sub.4O.sub.14 2.566 356 δ1(b) = 1.0 {e} 14 429411 H.sub.2O6P.sub.2Tl.sub.2 2.837 108 δ1(b) = 1.0 {e} 14 236184 H.sub.3K.sub.1O6P.sub.2 5.649 232 δ1(a) = 1.0, δ1(c) = 1.0 {e} 14 59361 H.sub.5O7P.sub.1V.sub.1 0.076 228 δ1(b) = 1.0 {e} 14 68557 H.sub.5O7P.sub.1V.sub.1 0.046 228 δ1(c) = 1.0 {e} 14 413072 H6Cs.sub.2N.sub.2P.sub.4 1.927 108 δ1(a) = 1.0 {e} 14 417326 H.sub.8K.sub.4O.sub.4P.sub.2S6 2.964 228 δ1(b) = 1.0 {e} 14 418251 H.sub.8Li.sub.4O.sub.12P.sub.2 3.883 188 δ1(c) = 1.0 {e} 14 50960 Hg.sub.1K.sub.2P.sub.2Se6 1.574 304 δ1(a) = 1.0, δ1(b) = 1.0 {e} 14 413168 K.sub.2Mg.sub.1P.sub.2Se6 2.113 132 δ1(d) = 1.0 {c, e} 14 241452 K.sub.2P.sub.2Se6Zn.sub.1 1.972 304 δ1(c) = 1.0, δ1(d) = 1.0 {e} 14 246133 Li.sub.2O.sub.8P.sub.2V.sub.1 0.076 260 δ1(a) = 1.0 {e} 14 411191 Mo.sub.2O.sub.16P.sub.4Sr.sub.1 0.030 276 δ1(c) = 1.0 {b, e} 14 67597 Na.sub.2O.sub.8P.sub.2V.sub.1 0.052 260 δ1(a) = 1.0 {e} 14 419533 Ni.sub.1O.sub.10P.sub.2V.sub.2 0.047 180 δ1(c) = 1.0 {a, e} 15 195333 Ag.sub.3P.sub.4S.sub.12Tl.sub.5 1.590 280 δ1(a) = 1.0, δ1(c) = 1.0 {f, e} 15 180003 Ba.sub.1In.sub.2O.sub.14P.sub.4 4.434 240 δ1(c) = −2.0 {a, d, e, f} 15 417616 Ba.sub.1La.sub.2O.sub.14Te.sub.5 3.306 292 δ1(d) = −2.0 {f, c, e} 15 421965 Ba.sub.1O.sub.8P.sub.2Th.sub.1 4.941 160 δ1(d) = −2.0 {f, c, e} 15 260737 Ba.sub.2Gd.sub.2O.sub.13Si.sub.4 0.007 300 δ1(b) = 1.0 {f, e} 15 195682 Bi.sub.2Cl.sub.8Hg.sub.3Te.sub.2 2.605 228 δ1(c) = 5.0 {f, d} 15 237619 Bi.sub.2Cl.sub.8Hg.sub.3Te.sub.2 2.696 228 δ1(d) = 5.0 {f, c} 15 410623 C.sub.1Ag.sub.2Cl.sub.1N.sub.1O.sub.4S.sub.1 2.633 272 δ1(d) = 5.0 {f, c, e} 15 65697 C.sub.2Ag.sub.1N.sub.2Na.sub.1 2.744 60 δ1(c) = 5.0 {f, d, e} 15 109946 C.sub.2F6Na.sub.2O.sub.4Sb.sub.2 3.146 172 δ1(a) = 1.0 {f} 15 249312 C.sub.2H.sub.2Cs.sub.2O.sub.5 3.533 116 δ1(d) = 1.0 {f, e} 15 249313 C.sub.2H.sub.2Cs.sub.2O.sub.5 3.452 116 δ1(d) = 1.0 {f, e} 15 249314 C.sub.2H.sub.2Cs.sub.2O.sub.5 3.487 116 δ1(c) = 1.0 {f, e} 15 249315 C.sub.2H.sub.2Cs.sub.2O.sub.5 3.527 116 δ1(c) = 1.0 {f, e} 15 246782 C.sub.2H.sub.2K.sub.2O.sub.5 3.548 116 δ1(d) = 1.0 {f, e} 15 246783 C.sub.2H.sub.2K.sub.2O.sub.5 3.544 116 δ1(d) = 1.0 {f, e} 15 246300 C.sub.2H.sub.2K.sub.2O6 3.507 128 δ1(c) = 1.0 {f} 15 240494 C.sub.2H.sub.2O.sub.5Rb.sub.2 3.592 116 δ1(d) = 1.0 {f, e} 15 9561 C.sub.2H.sub.4B.sub.2O.sub.2 3.994 60 δ1(b) = 1.0 {f} 15 260020 C.sub.2H6Fe.sub.1N.sub.2O.sub.4 0.732 112 δ1(b) = 1.0 {f, e} 15 400123 C.sub.2H.sub.8Cl.sub.3Cu.sub.1N.sub.1 0.036 212 δ1(b) = −1.0 {f} 15 2730 C.sub.2H.sub.8I.sub.2N.sub.4S.sub.2 1.994 124 δ1(d) = −1.0 {f, c, e} 15 23342 C.sub.2N.sub.2O6S.sub.2 3.823 132 δ1(a) = 1.0 {f} 15 240771 C.sub.4H.sub.12Mg.sub.1O6S.sub.4 1.819 180 δ1(d) = −1.0 {f, e} 15 110427 C.sub.4H.sub.16Cl6Cu.sub.2N.sub.2 0.037 212 δ1(b) = −1.0 {f} 15 110707 C.sub.4H.sub.16F.sub.4Mn.sub.1N.sub.1O.sub.2 0.056 168 δ1(c) = 2.0 {f, d, e} 15 248038 C.sub.4H.sub.4O.sub.10Th.sub.1 3.482 184 δ1(a) = 1.0, δ1(b) = 1.0 {f, e} 15 162708 C.sub.4H6Ba.sub.1O.sub.10 2.349 184 δ1(b) = 1.0, δ1(c) = 1.0 {f, e} 15 110011 C.sub.4H6Cd.sub.1O.sub.2S.sub.4 2.313 140 δ1(c) = 5.0 {f, d} 15 151153 C.sub.4H6Na.sub.2O7 2.611 132 δ1(d) = −1.0 {f, e} 15 109771 C.sub.4H6O7Sr.sub.1 2.899 148 δ1(c) = −1.0 {f, e} 15 162987 C.sub.4H.sub.8Cd.sub.1Cl.sub.2N.sub.2 0.335 120 δ1(d) = −1.0 {f, e} 15 249614 C.sub.4H.sub.8O.sub.12Th.sub.1 3.308 216 δ1(a) = 1.0, δ1(c) = 1.0 {f, e} 15 109772 C.sub.4H.sub.8O.sub.8Zn.sub.1 2.643 168 δ1(a) = −1.0 {f, c} 15 64628 C6H6Ag.sub.3Co.sub.1N.sub.8 3.012 224 δ1(d) = 3.0 {f, c, e} 15 200237 Cd.sub.3Na.sub.2O.sub.10Si.sub.3 2.709 220 δ1(d) = 5.0 {f, c, e} 15 28416 Cd.sub.3Na.sub.2O.sub.10Si.sub.3 2.709 220 δ1(d) = 5.0 {f, c, e} 15 426510 Cl.sub.3Na.sub.2O.sub.12Te.sub.4Y.sub.3 3.511 304 δ1(c) = −2.0 {f, d, e} 15 401295 Cu.sub.1Mo.sub.2O.sub.8Sb.sub.1 0.797 152 δ1(d) = 5.0 {f, c, e} 15 48002 Eu.sub.1O.sub.8Rb.sub.1S.sub.2 0.526 172 δ1(d) = −2.0 {f, c, e} 15 2047 F.sub.9K.sub.5O.sub.4U.sub.2 0.183 320 δ1(d) = −2.0 {f, c, e} 15 60091 F.sub.9K.sub.5O.sub.4U.sub.2 2.021 320 δ1(d) = −2.0 {f, c, e} 15 423945 H.sub.14Na.sub.3Np.sub.1O.sub.12 1.242 208 δ1(d) = −2.0 {f, c, e} 15 202650 H.sub.2F.sub.4K.sub.1Mn.sub.1O.sub.1 0.005 208 δ1(d) = 2.0 {f, c, e} 15 63104 H.sub.2F.sub.4K.sub.1Mn.sub.1O.sub.1 0.012 208 δ1(c) = 2.0 {f, d, e} 15 71838 H.sub.2F.sub.4Mn.sub.1O.sub.1Rb.sub.1 0.020 208 δ1(c) = 2.0 {f, d, e} 15 165406 H.sub.4Ca.sub.2O.sub.13P.sub.3V.sub.1 0.063 212 δ1(c) = 1.0 {f, d, e} 15 28219 H.sub.4F.sub.4O.sub.2Rb.sub.1V.sub.1 0.410 116 δ1(c) = 1.0 {f, d, e} 15 91139 H.sub.8Ni.sub.1O.sub.10V.sub.2 0.014 176 δ1(c) = 4.0 {f, d} 15 238682 Hg.sub.1In.sub.1S.sub.3Tl.sub.1 1.550 144 δ1(d) = 5.0 {f, c, e} 15 195303 Hg.sub.1O7P.sub.2Pd.sub.1 1.419 148 δ1(d) = 5.0 {a, c, f, e} 15 420533 Hg.sub.1O7P.sub.2Pd.sub.1 1.413 148 δ1(d) = 5.0 {a, c, f, e} 15 60099 K.sub.2Rb.sub.2Re6S.sub.13 1.332 312 δ1(a) = 1.0 {f, e} 15 35463 K.sub.4Mo.sub.8O.sub.52P.sub.12 0.008 228 δ1(c) = −2.0 {f, d, e} 15 281062 O.sub.14Sr.sub.3Te.sub.4U.sub.1 1.780 304 δ1(d) = −2.0 {f, c, e} 57 411520 As.sub.2Cl.sub.3Hg.sub.3Tl.sub.1 1.158 280 δ1(b) = 1.0 {a, c, d, e} 57 411521 Br.sub.3Hg.sub.3Sb.sub.2Tl.sub.1 0.999 280 δ1(b) = 1.0 {a, c, d, e} 58 260478 H.sub.8Cs.sub.4O.sub.4P.sub.2Se6 1.820 228 δ1(c) = −1.0 {a, h, b, g} 58 260477 H.sub.8O.sub.4P.sub.2Rb.sub.4Se6 1.629 228 δ1(d) = −1.0 {a, h, b, g} 58 72103 La.sub.2O.sub.8S.sub.2Ta.sub.3 0.776 388 δ1(b) = −1.0 {h, e, g} 61 280667 Cl.sub.1N.sub.2S.sub.1Se.sub.2 1.446 280 δ1(b) = −1.0 {c} 61 412247 Cr.sub.2Li.sub.4N6Sr.sub.2 0.921 264 δ1(a) = 1.0 {c} 61 23312 H6F6N.sub.2Si.sub.1 6.775 248 δ1(b) = 1.0 {a, c} 61 35702 H6F6N.sub.2Si.sub.1 7.315 248 δ1(b) = 1.0 {a, c} 62 28552 H6F.sub.1N.sub.1O.sub.2 3.682 120 δ1(b) = 1.0 {c, d} 62 40979 H6F.sub.5N.sub.2Sb.sub.1 3.322 224 δ1(b) = 1.0 {c, d} 63 427778 As6Ba.sub.4Cd.sub.3Li.sub.2 0.308 216 δ1(b) = −1.0 {f, c} 63 427777 Ba.sub.4Cd.sub.3Li.sub.2P6 0.453 216 δ1(b) = −1.0 {f, c} 64 241962 C.sub.4H.sub.12Cl.sub.8Nb.sub.2Se.sub.2 0.567 244 δ1(a) = −1.0 {f, g} 64 260476 H.sub.8K.sub.4O.sub.4P.sub.2Se6 2.003 228 δ1(a) = −1.0 {f, e, g} 71 99953 Ba.sub.1O7Sr.sub.1Ta.sub.2 2.207 144 δ1(d) = 2.0 {c, l, j, b, i, g} 71 410590 Br.sub.9Cs.sub.5Nb.sub.2S.sub.4 1.692 158 δ1(a) = −1.0, δ1(b) = 2.0 {c, m, l, n, d, i} 71 418796 Br.sub.9Nb.sub.2S.sub.4Tl.sub.5 1.618 128 δ1(b) = −1.0 {c, m, l, n, j, d} 71 291278 Cl.sub.8Cs.sub.5I.sub.1S.sub.4U.sub.2 0.066 160 δ1(d) = 2.0 {a, m, l, n, b, i} 71 410591 Cl.sub.9Cs.sub.5Nb.sub.2S.sub.4 1.588 158 δ1(a) = −1.0, δ1(b) = 2.0 {c, m, l, n, d, i} 71 417942 Cl.sub.9Nb.sub.2S.sub.4Tl.sub.5 1.532 128 δ1(a) = −1.0, δ1(b) = 2.0 {c, m, l, n, d, i} 71 249327 F.sub.1K.sub.1Nb.sub.2O6Sr.sub.1 1.932 176 δ1(c) = 2.0 {a, l, j, h, d, i} 71 56744 H.sub.1La.sub.2Li.sub.1O.sub.3 1.800 42 δ1(c) = 2.0 {a, d, b, i} 71 95059 La.sub.1O.sub.11Sr.sub.2Ta.sub.3 2.690 112 δ1(c) = 2.0 {a, l, j, b, d, i} 74 171492 C.sub.4N.sub.4Pt.sub.1Rb.sub.2 2.115 128 δ1(b) = 2.0 {c, a, e, f, h} 74 9710 Cs.sub.1F.sub.3Mo.sub.1O.sub.2 3.342 96 δ1(a) = 2.0 {c, e, i, h} 74 245171 H.sub.4Al.sub.1F.sub.5O.sub.2Zn.sub.1 3.457 132 δ1(b) = −5.0 {a, j, e, d, i} 74 97289 K.sub.1Na.sub.2O.sub.15Si6Y.sub.1 5.053 272 δ1(d) = 2.0 {j, e, b, h, i, g} 74 185292 La.sub.1Nb.sub.2O7Rb.sub.1 1.999 176 δ1(c) = 2.0 {a, h, e, g} 74 72741 Li.sub.2O7P.sub.2Pd.sub.1 1.415 128 δ1(a) = −4.0 {c, j, e, h, g} 74 195302 O.sub.14P.sub.4Pd.sub.3Tl.sub.2 1.149 280 δ1(c) = −4.0 {a, j, e, h, d, i} 82 4102 C.sub.4Cd.sub.1Hg.sub.1N.sub.4S.sub.4 1.960 84 δ1(d) = −1.0 {a, c, g} 82 170700 C.sub.4Cd.sub.1Hg.sub.1N.sub.4Se.sub.4 2.464 84 δ1(d) = −1.0 {a, c, g} 82 249203 C.sub.4Cd.sub.1Hg.sub.1N.sub.4Se.sub.4 2.425 84 δ1(d) = −1.0 {a, c, g} 82 280039 C.sub.4Cd.sub.1N.sub.4S.sub.4Zn.sub.1 3.589 84 δ1(c) = −1.0 {a, d, g} 82 88970 C.sub.4Cd.sub.1N.sub.4S.sub.4Zn.sub.1 3.589 84 δ1(c) = −1.0 {a, d, g} 82 171416 C.sub.4Cd.sub.1N.sub.4Se.sub.4Zn.sub.1 3.178 84 δ1(c) = −1.0 {a, d, g} 82 249202 C.sub.4Cd.sub.1N.sub.4Se.sub.4Zn.sub.1 3.115 84 δ1(d) = −1.0 {c, b, g} 82 31359 C.sub.4Co.sub.1Cs.sub.1O.sub.4 3.715 58 δ1(d) = −1.0 {a, c, g} 82 31360 C.sub.4Co.sub.1Cs.sub.1O.sub.4 3.620 58 δ1(d) = −1.0 {a, c, g} 82 280028 C.sub.4Hg.sub.1N.sub.4S.sub.4Zn.sub.1 2.679 84 δ1(c) = −1.0 {d, b, g} 82 188764 C.sub.4Hg.sub.1N.sub.4Se.sub.4Zn.sub.1 2.460 84 δ1(d) = −1.0 {a, c, g} 85 24677 Cl.sub.1K.sub.2Na.sub.1O6S.sub.2 5.077 296 δ1(d) = 1.0 {a, c, b, g} 87 78029 Ba.sub.1O7Si.sub.2V.sub.1 0.098 130 δ2(b) = −1.0 {h, d, e, i} 88 99956 C.sub.4H.sub.8In.sub.1K.sub.1O.sub.12 3.650 216 δ1(d) = 1.0 {a, f, b} 88 261929 C.sub.4H.sub.8K.sub.1Lu.sub.1O.sub.12 3.445 260 δ1(d) = 1.0 {f, a, b} 124 170216 C.sub.8K.sub.1O.sub.8Y.sub.1 2.139 200 δ1(e) = 1.0 {a, c, n} 128 24676 Cl.sub.2K.sub.5Na.sub.1O.sub.12S.sub.4 5.229 312 δ1(c) = −1.0 {a, e, b, h, i, g} 139 412833 Br.sub.4Cs.sub.2I.sub.2Pd.sub.1 0.677 70 δ2(b) = −1.0 {a, h, d, e} 139 412835 Br.sub.4I.sub.2Pd.sub.1Rb.sub.2 0.622 70 δ2(b) = −1.0 {a, h, d, e} 139 412834 Cl.sub.4Cs.sub.2I.sub.2Pd.sub.1 0.832 70 δ2(b) = −1.0 {a, h, d, e} 140 409487 Ba.sub.4Bi.sub.3K.sub.1O.sub.1 0.573 140 δ1(d) = −1.0 {c, a, l, b, h} 140 410747 Ba.sub.1K.sub.1O.sub.1Sb.sub.3 0.993 140 δ1(d) = −1.0 {c, a, l, b, h} 140 415036 Ba.sub.4O.sub.1Rb.sub.1Sb.sub.3 0.874 140 δ1(d) = −1.0 {c, a, l, b, h} 141 251540 As.sub.2Cs.sub.2O.sub.8Th.sub.1 3.808 176 δ1(d) = 2.0 {c, e, b, h} 141 173150 Ce.sub.1K.sub.2O.sub.8P.sub.2 1.417 176 δ1(c) = 2.0 {a, h, d, e} 141 249887 Cl.sub.2Cs.sub.2N.sub.2O6Pb.sub.1 2.275 164 δ1(b) = 1.0 {a, h, e} 148 63544 As.sub.1K.sub.1Ni.sub.1O.sub.4 0.112 96 δ1(b) = 1.0, δ2(b) = 1.0 {f, c} 148 63353 As.sub.1Na.sub.1Ni.sub.1O.sub.4 0.100 80 δ1(b) = 1.0, δ2(b) = 1.0 {f, c} 148 27014 As.sub.2Ba.sub.1Ni.sub.2O.sub.8 0.008 88 δ1(b) = 1.0, δ2(b) = 1.0 {a, c, f} 148 280167 Ba.sub.1Ni.sub.2O.sub.8P.sub.2 0.011 88 δ2(a) = 1.0, δ1(e) = 1.0 {f, c, b} 148 249686 C.sub.4H.sub.4Cd.sub.1O6 2.767 204 δ1(e) = −1.0 {f, d} 148 408324 Ca.sub.2Li6Mn.sub.2N6 0.136 54 δ1(a) = 1.0 {f, c} 163 236385 Br.sub.15Cs.sub.2La.sub.1O.sub.3Ta6 1.011 364 δ1(e) = 2.0 {f, c, h, i} 163 80424 Br.sub.15Cs.sub.2La.sub.1O.sub.3Ta6 1.019 364 δ1(e) = 2.0 {f, c, h, i} 163 65661 Cl.sub.18Cs.sub.1Lu.sub.1Nb6 0.922 476 δ1(e) = 4.0 {c, d, i} 164 109713 C.sub.8H.sub.24Cl.sub.18N.sub.2Nb6 0.484 270 δ2(a) = −1.0, δ1(c) = 1.0 {d, j, i, g} 166 416475 Ce.sub.1O.sub.1P.sub.1Zn.sub.1 0.006 70 δ2(a) = −1.0 {c} 166 414584 H.sub.12B.sub.12Br.sub.1Cs.sub.3 5.017 82 δ2(a) = 1.0 {h, b, e} 166 414581 H.sub.12B.sub.12Br.sub.1K.sub.3 4.797 82 δ2(a) = 1.0 {h, b, e} 166 414583 H.sub.12B.sub.12Br.sub.1Rb.sub.3 5.273 82 δ2(a) = 1.0 {h, b, e} 166 414586 H.sub.12B.sub.12Cl.sub.1Cs.sub.3 5.374 82 δ2(a) = 1.0 {h, b, e} 166 414585 H.sub.12B.sub.12Cl.sub.1Rb.sub.3 5.436 82 δ2(a) = 1.0 {h, b, e} 166 98622 H.sub.12B.sub.12Cs.sub.3I.sub.1 4.630 82 δ2(a) = 1.0 {h, b, e} 166 98619 H.sub.12B.sub.12I.sub.1K.sub.3 4.959 82 δ2(a) = 1.0 {h, b, e} 166 98620 H.sub.12B.sub.12I.sub.1Rb.sub.3 4.544 82 δ2(a) = 1.0 {h, b, e} 194 97530 As.sub.2Ba6Na.sub.2O.sub.17Ru.sub.2 0.058 380 δ1(d) = 2.0 {a, e, b, k, f, h} 194 245668 Ba.sub.5Br.sub.2O.sub.9Ru.sub.2 0.006 268 δ1(b) = 2.0 {e, k, f, h, d} 194 97524 Ba6Na.sub.2O.sub.17Ru.sub.2V.sub.2 0.074 380 δ1(d) = 2.0 {a, e, b, k, f, h} 194 97526 Ba6Na.sub.2O.sub.17Ru.sub.2V.sub.2 0.136 380 δ1(d) = 2.0 {a, e, b, k, f, h} 203 20169 C.sub.4Fe.sub.2Na6O.sub.16S.sub.1 0.616 280 δ1(d) = −1.0, δ2(d) = −2.0 {c, b, e, f, g} 215 62225 Cs.sub.3Mo.sub.4O.sub.16P.sub.3 0.092 162 δ1(b) = 1.0 {c, d, e, i} 217 52575 Ag.sub.3Ge.sub.3P6Sn.sub.2 0.061 166 δ1(a) = 1.0 {c, d, e, g} 217 52595 Ag.sub.3P6Si.sub.3Sn.sub.2 0.159 166 δ1(a) = 1.0 {c, d, e, g} 227 168524 C.sub.4Cd.sub.1K.sub.2N.sub.4 6.317 132 δ1(b) = −1.0, δ1(c) = 1.0, {a, d, e} δ2(c) = 1.0 227 23994 C.sub.4Cd.sub.1K.sub.2N.sub.4 4.678 132 δ1(b) = −1.0, δ1(c) = 1.0, {a, d, e} δ2(c) = 1.0 227 23995 C.sub.4Hg.sub.1K.sub.2N.sub.4 4.597 132 δ1(b) = −1.0, δ1(c) = 1.0, {a, d, e} δ2(c) = 1.0 227 62084 C.sub.4Hg.sub.1K.sub.2N.sub.4 5.920 132 δ1(b) = −1.0, δ1(c) = 1.0, {a, d, e} δ2(c) = 1.0 227 14368 C.sub.4K.sub.2N.sub.4Zn.sub.1 6.135 132 δ1(b) = −1.0, δ1(c) = 1.0, {a, d, e} δ2(c) = 1.0 227 23993 C.sub.4K.sub.2N.sub.4Zn.sub.1 4.963 132 δ1(b) = −1.0, δ1(c) = 1.0, {a, d, e} δ2(c) = 1.0

SELECTION OF A HETEROGENEOUS CATALYSTS WITH METALLIC SURFACE STATES

Assignee

Inventors

Cpc classification

Classification Explorer

C25B3/26

CHEMISTRY; METALLURGY

Classification Explorer

Y02E60/36

GENERAL TAGGING OF NEW TECHNOLOGICAL DEVELOPMENTS; GENERAL TAGGING OF CROSS-SECTIONAL TECHNOLOGIES SPANNING OVER SEVERAL SECTIONS OF THE IPC; TECHNICAL SUBJECTS COVERED BY FORMER USPC CROSS-REFERENCE ART COLLECTIONS [XRACs] AND DIGESTS

Classification Explorer

C25B11/077

CHEMISTRY; METALLURGY

Classification Explorer

C25B11/089

CHEMISTRY; METALLURGY

Classification Explorer

C25B3/21

CHEMISTRY; METALLURGY

Classification Explorer

H01M4/9016

ELECTRICITY

Classification Explorer

C25B1/27

CHEMISTRY; METALLURGY

Classification Explorer

C25B11/087

CHEMISTRY; METALLURGY

Classification Explorer

C25B1/55

CHEMISTRY; METALLURGY

Classification Explorer

H01M4/9041

ELECTRICITY

Classification Explorer

C25B1/04

CHEMISTRY; METALLURGY

Classification Explorer

Y02E60/50

GENERAL TAGGING OF NEW TECHNOLOGICAL DEVELOPMENTS; GENERAL TAGGING OF CROSS-SECTIONAL TECHNOLOGIES SPANNING OVER SEVERAL SECTIONS OF THE IPC; TECHNICAL SUBJECTS COVERED BY FORMER USPC CROSS-REFERENCE ART COLLECTIONS [XRACs] AND DIGESTS

Classification Explorer

B01J37/031

PERFORMING OPERATIONS; TRANSPORTING

Classification Explorer

H01M4/9008

ELECTRICITY

Classification Explorer

B01J37/0009

PERFORMING OPERATIONS; TRANSPORTING

Classification Explorer

C25B11/073

CHEMISTRY; METALLURGY

International classification

Classification Explorer

B01J37/03

PERFORMING OPERATIONS; TRANSPORTING

Classification Explorer

B01J37/00

PERFORMING OPERATIONS; TRANSPORTING

Abstract

Claims

Description