Reactions of Halogermylenes with N ‐Heterocyclic Carbenes: Selective Formation of Low Valent Ge(II) Species

The reactions of the Rind‐based 1,2‐dihalodigermenes, (Eind)BrGe=GeBr(Eind) ( 1a ), and (EMind)ClGe=GeCl(EMind) ( 1b ), with two types of N ‐heterocyclic carbenes (NHCs) (Im‐ i Pr 2 Me 2 and Im‐Me 4 ) result in the formation of the halogermylene mono‐NHC adducts, (Im‐ i Pr 2 Me 2 )(Eind)GeBr ( 2a' ) and (Im‐ i Pr 2 Me 2 )(EMind)GeCl ( 2b' ), and the germyliumylidene cation bis‐NHC adducts, [(Im‐Me 4 ) 2 (Eind)Ge] + [Br − ] ( 3a ) and [(Im‐Me 4 ) 2 (EMind)Ge] + [Cl − ] ( 3b ). The resulting Ge(II) species are stabilized by the bulky Rind groups and the strongly σ ‐donating NHC ligands, whose structures are confirmed by a single‐crystal X‐ray diffraction (SC‐XRD) analysis. Based on density functional theory (DFT) and quantum theory of atoms in molecules (QTAIM) calculations of 2a’ and the cationic part of 3a , it is concluded that while the GeC(Eind) and GeC(NHC) bonds exhibit distinct differences in their degrees of polarization, all the GeC bonds display a partially polarized covalent character. Both reaction energy calculations and experimental studies suggested the potential liberation of an NHC ligand from the germyliumylidene cation bis‐NHC adducts, leading to the exchange of the NHC ligands. The formation mechanism of 3a from 1a and two NHC molecules via (Im‐Me 4 )(Eind)GeBr ( 2a ) is discussed based on DFT calculations.