The ability of various group 10 alpha-diimine and salicylaldimine polymerization catalysts to undergo chain transfer with main group metal alkyls during ethylene polymerization has been investigated in depth. The catalyst systems with the most efficient chain transfer were found to be cationic (alpha-diimine)Ni catalysts paired with dialkyl zinc chain-transfer reagents, in which all growing polymeryl chains were transferred to Zn on the basis of C-13 NMR analysis. In these systems, chain transfer was found to be dependent on the sterics of both the catalyst and the chain-transfer reagent (CTR). When less sterically encumbered catalysts or CTRs were utilized, the relative rate of bimetallic chain transfer to chain propagation was increased; however, in cases where chain termination via beta-H elimination was extremely rapid, chain transfer to Zn was kinetically not viable. Importantly, chain transfer from (alpha-diimine)Ni catalysts to Zn alkyls is also very sensitive to the strength of the ZnC bond: ZnMe2 (186 kJ/mol) is a significantly poorer chain-transfer reagent than ZnEt2 (157 kJ/mol), despite being less sterically encumbered. Finally, the nature of the catalyst counteranion (MAO or B(ArF)(4) ArF = 3,5-(CF3)(2)C6H3) does not have a significant impact on the rate of chain transfer to ZnR2 relative to propagation, indicating that the same factors that determine propagation rates also determine bimetallic chain-transfer rates.

• 出版日期2014-11