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Sterically Controlled Self-Assembly of a Robust Multinuclear Palladium Catalyst for Ethylene Polymerization.

Qian LiuRichard F Jordan
Published in: Journal of the American Chemical Society (2019)
The self-assembly and reactivity of a robust multinuclear Pd catalyst based on the sterically expanded phosphine- bis-arenesulfonate ligand PPh(2-SO3--4,5-(OMe)2-Ph)2 (OPO2-, 2) are described. The reaction of Li2[2] with (COD)PdMeCl and 4-(5-nonyl)-pyridine (py') generates the tetranuclear complex {(OPO-Li)PdMe(py')}4Li2Cl2 (3) in which four (phosphine-sulfonate)PdMe(py') units are arranged around the periphery of a Li4S4O12·Li2Cl2 cage. The Pd atoms in 3 are arranged in pairs with a Pd-Pd distance of 6.6 Å within each pair. 3 is more resistant to disassembly to Pd1 species than previously studied {(OPO-Li)PdMe(py)}4 compounds based on Li4S4O12 cages. 3 is a single-site catalyst for the polymerization of ethylene to high-molecular weight polyethylene hexanes suspension at 80 °C.
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