An oxidative homocoupling method of synthesizing certain 2,2-bithiophenes from thiophenes using oxygen as the terminal oxidant is disclosed. In non-limiting examples, the method uses oxygen along with a catalytic system that includes palladium, an assistive ligand, and a non-palladium metal additive to catalyze one of the following reactions:

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Associated catalytic systems and compositions are also disclosed.

Provided herein are metal organic frameworks comprising metal nodes and N-donor organic ligands. Methods for capturing chemical species from fluid compositions comprise contacting a metal organic framework characterized by the formula [M.sub.aM.sub.bF.sub.6-n(O/H.sub.2O).sub.w(Ligand).sub.x(solvent).sub.y].sub.z with a fluid composition and capturing one or more chemical species from the fluid composition.

Disclosed herein is a catalyst system comprising (i) a heterocyclic 2-[(phosphinyl)aminyl]imine transition metal compound complex having Structure I wherein T is oxygen or sulfur, R.sup.1 and R.sup.2 are each independently a C.sub.1 to C.sub.20 organyl group consisting essentially of inert functional groups, R.sup.3 is hydrogen or a C.sub.1 to C.sub.20 organyl group, L is a C.sub.1 to C.sub.20 organylene group consisting essentially of inert functional groups, MX.sub.p represents a transition metal compound where M is a transition metal, X is a monoanion, and p is an integer from 1 to 6, Q is a neutral ligand, and q ranges from 0 to 6, and (ii) an organoaluminum compound. Also disclosed herein is a process comprising contacting (i) ethylene, (ii) a catalyst system comprising (a) a heterocyclic transition metal compound complex having Structure I as described herein and (b) an organoaluminum compound, and (iii) optionally hydrogen to form an oligomer product.

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The present invention relates to an optically pure (+) or (?) enantiomer of a ruthenium complex having formula (I) as well as the preparation method of said enantiomer, and uses thereof as catalyst, in particular in asymmetric olefin metathesis.

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This disclosure relates to compositions comprising diruthenium catalysts and uses related thereto. In certain embodiments, the diruthenium catalyst comprises a cyclopropyl ring substituted with a carboxylic acid ligand. In certain embodiments, the diruthenium catalyst comprises an N-(sulfonyl)pyrrolidine ring substituted with a carboxylic acid ligand. In certain embodiments, the diruthenium catalyst comprises a 2-(1,3-dioxoisoindolin-2-yl)acetic acid ligand. In certain embodiments, this disclosure relates to methods of using catalysts in chemical transformations disclosed herein.

The invention provides a molecular transition metal complex selected from Formula 1, as described herein; an ethylene-based polymer; and a process to form the ethylene-based polymer, said process comprising polymerizing ethylene in the presence of at least one molecular transition metal complex selected from Formula 1, as described herein, and wherein either Z.sub.1 or Z.sub.2 is dative covalent (coordinate) to the metal (M). ##STR00001##

The present invention relates to Metal Organic Frameworks (MOF), linkers for said MOFs and method of manufacturing thereof, wherein the MOF linker comprises a core and spacers having aryl moieties.

Tin-containing catalysts are provided comprising a compound of formula I.

I:

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L1, L2, L3, and L4 are each independently selected from O, S, OC(?O), OC(?S), SC(?O), SC(?S), OS(?O).sub.2O, OS(?O).sub.2 N(R6)-, and OP(?O)(R6)-, wherein R6 represents hydrogen or a monovalent aliphatic, araliphatic, cycloaliphatic or aromatic group having up to 20 carbon atoms. R1, R2, R3, R1, R2, and R3 each independently represent a divalent aliphatic, araliphatic, cycloaliphatic or aromatic group having up to 20 carbon atoms; and R4, R5, R4, and R5 each independently represent hydrogen or a monovalent residue derived from reaction of a respective NH group with an isocyanate, an ethylenically unsaturated compound, a lactone, a dilactone, a thiolactone, a lactam, a thiolactam, a carboxylic acid or derivative thereof, or an epoxide. Also provided are curable compositions containing these catalysts and methods of controlling the rate of cure of curable compositions.

Polydentate macrocyclic NHCs (NHC ligands) and related methods are disclosed. Such ligands advantageously facilitate a variety of ligand coordination modes and stabilize oxidation states of metal complexes with a number of coordination environments and shapes. The NHC ligands described herein comprise pendant groups configured to facilitate a variety of reactions including: cis-trans isomerization, proton shuttling and facilitating changes in coordination environments as a result of redox reactions.

Process for methoxycarbonylation with formic acid and methanol.