Ethylene coordination, insertion, and chain transfer at a cationic aluminum center: A comparative study with ab initio correlated level and density functional methods

The performance of correlated nb initio, methods and DFT methods was compar ed for the propagation and chain transfer steps of ethylene polymerization by a model aluminum-amidinate system, [{HC(NH)2}AlCH2CH3](+). All methods a gree that the main chain transfer mechanism is beta-hydrogen transfer to th e monomer (BHT), and that this is substantially easier than propagation; im plications for the real Jordan system are discussed briefly. Counterpoise c orrections are necessary to obtain reasonable olefin complexation energies. Activation energies are consistently lower at DFT (BP86, B3LYP) than at nb initio levels [MP2, MP3, MP4, CI, CCSD(T)]; the differences are particular ly large (16 kcal/mol) for the BHT reaction. This is suggested to be relate d to the known problem of DFT in describing hydrogen bridged systems. (C) 2 000 John Wiley & Sons, Inc.