Lewis Base Adducts Derived from Transfer Hydrogenation Catalysts: Scope and Selectivity

Abstract

The coordination tendencies of the unsaturated 16e Lewis acid [Cp*Ir(TsDPEN)]+ ([1H]+), where TsDPEN is H2NCHPhCHPhNTs−, are surveyed, together with parallel studies on analogous complexes such TsDACH (TsDACH = H2NC6H10NTs−) and Tsen (Tsen = H2NC2H4NTs−) derivatives as well as Rh analogues. Crystallographic analyses of the adducts of [Cp*IrL(TsDPEN)]+, where L = NCMe, NH3, PPh3, and CO, and [Cp*Ir(CO)(R,R-TsDACH)]+ are described. In the TsDPEN system, the Lewis base adducts contain an absolute configuration that is opposite that for the TsDPEN ligand and feature equatorial phenyl groups. In the case of [Cp*Ir(CO)(R,R-TsDACH)]+, both R and S metal centers cocrystallize. Isomerization of the R to the S metal center was first order in [Cp*(R-Ir)(CO)(R,R-TsDACH)]+ with minimal solvent effects. The pKa of the amine of the Lewis base adducts correlated linearly with the pKa of the free ligand in MeCN and the pKa of the amine (H2NCHPhCHPhNTs) of the Lewis base adduct in MeCN. Amines with pKa 1H]+, whereas bulky bases with pKa > 20 deprotonated the iridium amine