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Switching the Reactivity of Palladium Diimines with “Ancillary” Ligand to Select between Olefin Polymerization, Branching Regulation, or Olefin Isomerization
Author(s) -
Jones Glen R.,
Basbug Alhan Hatice E.,
Karas Lucas J.,
Wu Judy I.,
Harth Eva
Publication year - 2021
Publication title -
angewandte chemie international edition
Language(s) - English
Resource type - Journals
SCImago Journal Rank - 5.831
H-Index - 550
eISSN - 1521-3773
pISSN - 1433-7851
DOI - 10.1002/anie.202012400
Subject(s) - isomerization , diimine , chemistry , alkene , polymerization , photochemistry , reactivity (psychology) , catalysis , branching (polymer chemistry) , polymer chemistry , olefin fiber , monomer , ligand (biochemistry) , organic chemistry , polymer , medicine , biochemistry , alternative medicine , receptor , pathology
Coordinating solvents are commonly employed as ancillary ligands to stabilize late transition metal complexes and are conventionally considered to have little effect on the reaction products. Our work identifies that the presence of ancillary ligand in Pd‐diimine catalyzed polymerizations of α‐olefins can drastically alter reactivity. The addition of different amounts of acetonitrile allows for switching between distinct reaction modes: isomerization–polymerization with high branching (0 equiv.), regular chain‐walking polymerization (1 equiv.), and alkene isomerization with no polymerization (>20 equiv.). Optimization of the isomerization reaction mode led to a general set of conditions to switch a wide variety of diimine complexes into efficient alkene isomerization catalysts, with catalyst loading as low as 0.005 mol %.