The mechanisms of ligand substitution reactions of PdCl2(CH3CN)(2) with PPh3 and P(OPh)(3) ligands were investigated by computational calculations using density functional theory (DFT). Contrary to the conventional associative mechanism of a 16-electron Pd complex, substitutions of two acetonitrile ligands in PdCl2(CH3CN)(2) with PPh3 or P(OPh)(3) adopt dissociative pathways. The first PdCl2(CH3CN)(2)+PPh3 -> PdCl2(CH3CN)(PPh3)+CH3CN step takes I-d mechanism and the following PdCl2(CH3CN)(PPh3) -> PdCl2(PPh3)(2)+CH3CN step does D mechanism. The overall free energy barriers (G(max)(double dagger)) of two separate steps were 26.4 and 20.4kcal/mol, respectively. Similar reaction with P(OPh)(3) ligands takes D mechanism for both first and second substitutions with G(max)(double dagger) values of 30.3 and 21.0kcal/mol, respectively.

• 出版日期2016-7