Disclosed is a mixture containing polymerizable compounds having Formulas (III) and (IV) wherein Ar.sup.1 and Ar.sup.2 are divalent aromatic hydrocarbon or heteroaromatic ring group having D1 or D2 as a substituent; D.sup.1 and D.sup.2 are C1-C20 organic group having at least one aromatic ring selected from the group consisting of aromatic hydrocarbon ring and heteroaromatic ring; A.sup.11-A.sup.22 and B.sup.11-B.sup.22 are alicyclic or aromatic group which may have a substituent, Y.sup.11-Y.sup.22 and L.sup.11-L.sup.22 are single bond, O, CO, COO, OCO, NR.sup.21CO, CONR.sup.22, OCOO, NR.sup.23COO, OCONR.sup.24 or NR.sup.25CONR.sup.26 where R.sup.21-R.sup.26 are hydrogen or C1-C6 alkyl group; R.sup.4-R.sup.9 are hydrogen, methyl group or chlorine; one of f and k is integer of 1 to 3 with the other being integer of 0 to 3; g, j, m and q are integer of 1 to 20; and h, i, n and p are 0 or 1.

##STR00001##

A polymerizable LC material comprising at least one di- or multireactive mesogenic compound selected from the group of compounds of formula I, ##STR00001##
at least one monoreactive mesogenic compound selected from the group of compounds of formula II, ##STR00002##
wherein the parameter A.sup.11 to A.sup.21, L.sup.21, p, P.sup.11 to P.sup.22, R.sup.21, Sp.sup.11 to Sp.sup.21, X.sup.11 to X.sup.21, and Z.sup.11 to Z.sup.21 have one of the meanings as given in claim 1, and at least one carbazole oxime ester photoinitiator. Furthermore, a method for preparation of the polymerizable LC material, a polymer film with improved thermal durability obtainable from the corresponding polymerizable LC material, a method of preparation of such polymer film, and the use of such polymer film and said polymerizable LC material for optical, electro-optical, decorative or security devices.

A polymerizable LC material comprising at least one di- or multireactive mesogenic compound selected from the group of compounds of formula I, ##STR00001##
at least one monoreactive mesogenic compound selected from the group of compounds of formula II, ##STR00002##
wherein the parameter A.sup.11 to A.sup.21, L.sup.21, p, P.sup.11 to P.sup.22, R.sup.21, Sp.sup.11 to Sp.sup.21, X.sup.11 to X.sup.21, and Z.sup.11 to Z.sup.21 have one of the meanings as given in claim 1, and at least one carbazole oxime ester photoinitiator. Furthermore, a method for preparation of the polymerizable LC material, a polymer film with improved thermal durability obtainable from the corresponding polymerizable LC material, a method of preparation of such polymer film, and the use of such polymer film and said polymerizable LC material for optical, electro-optical, decorative or security devices.

Acoustic wave sensors comprise: a piezoelectric layer, first and second electrodes arranged with the piezoelectric layer in a piezoelectric transducer circuit; and a polymeric sensing layer for adsorbing a gas-phase analyte, the adsorption of which analyte causes a change in resonant frequency of the piezoelectric transducer circuit, wherein the polymeric sensing layer comprises: (a) a polymer chosen from substituted or unsubstituted: polyarylenes comprising the reaction product of monomers comprising a first monomer comprising an aromatic acetylene group and a second monomer comprising a cyclopentadienone group; polyamides; polypyrazoles; or novolacs; or a cured product thereof; (b) a polymer chosen from substituted or unsubstituted: polyamic acids; or polyamic acid-polyimide copolymers; (c) a polymer formed from one or more monomers comprising a monomer comprising a polar group-substituted arylcyclobutene group, or a cured product thereof; or (d) a polymer comprising polymerized units of a monomer chosen from substituted or unsubstituted: maleimides; or norbomenes; or a cured product thereof. The acoustic wave sensors and methods of using such sensors find particular applicability in the sensing of gas-phase analytes.

Acoustic wave sensors comprise: a piezoelectric layer, first and second electrodes arranged with the piezoelectric layer in a piezoelectric transducer circuit; and a polymeric sensing layer for adsorbing a gas-phase analyte, the adsorption of which analyte causes a change in resonant frequency of the piezoelectric transducer circuit, wherein the polymeric sensing layer comprises: (a) a polymer chosen from substituted or unsubstituted: polyarylenes comprising the reaction product of monomers comprising a first monomer comprising an aromatic acetylene group and a second monomer comprising a cyclopentadienone group; polyamides; polypyrazoles; or novolacs; or a cured product thereof; (b) a polymer chosen from substituted or unsubstituted: polyamic acids; or polyamic acid-polyimide copolymers; (c) a polymer formed from one or more monomers comprising a monomer comprising a polar group-substituted arylcyclobutene group, or a cured product thereof; or (d) a polymer comprising polymerized units of a monomer chosen from substituted or unsubstituted: maleimides; or norbomenes; or a cured product thereof. The acoustic wave sensors and methods of using such sensors find particular applicability in the sensing of gas-phase analytes.

Disclosed are saturated cyclic monopolymers derived from hexyne, octyne, nonyne, pentadecyne and saturated cyclic copolymers derived from acetylene and a second alkyne monomer that is hexyne, octyne, nonyne, or pentadecyne.

Disclosed are saturated cyclic monopolymers derived from hexyne, octyne, nonyne, pentadecyne and saturated cyclic copolymers derived from acetylene and a second alkyne monomer that is hexyne, octyne, nonyne, or pentadecyne.

Provided is a curable compound having a low melting temperature, having excellent workability as a result of having good solvent solubility, and being capable of forming a cured product having excellent heat resistance. The curable compound according to an embodiment of the present invention includes the following characteristics (a) to (e). (a) Number average molecular weight (calibrated with polystyrene standard): 1000 to 15000. (b) Proportion of a structure derived from an aromatic ring in the total amount of the curable compound: 50 wt. % or greater. (c) Solvent solubility at 25? C.: 1 g/100 g or greater. (d) Glass transition temperature: 280? C. or lower. (e) 5% Weight loss temperature (T.sub.d5) measured at a rate of temperature increase of 10? C./min (in nitrogen), for a cured product of the curable compound: 300? C. or higher.

Provided is a curable compound having a low melting temperature, having excellent workability as a result of having good solvent solubility, and being capable of forming a cured product having excellent heat resistance. The curable compound according to an embodiment of the present invention includes the following characteristics (a) to (e). (a) Number average molecular weight (calibrated with polystyrene standard): 1000 to 15000. (b) Proportion of a structure derived from an aromatic ring in the total amount of the curable compound: 50 wt. % or greater. (c) Solvent solubility at 25? C.: 1 g/100 g or greater. (d) Glass transition temperature: 280? C. or lower. (e) 5% Weight loss temperature (T.sub.d5) measured at a rate of temperature increase of 10? C./min (in nitrogen), for a cured product of the curable compound: 300? C. or higher.

The present disclosure relates to a resin that includes a first repeat unit as defined by Structure (I) ##STR00001##
where A is either a methyl group or a hydrogen atom, R.sup.1 is a first bridging group, and is a covalent bond.