![Sample our Physical Sciences journals, sign in here to start your FREE access for 14 days]({"type":"image" , "src" : "/sda/110819/TOC-Subject-Sample-2021-Physical-Sciences.jpg"})
GRAPHICAL ABSTRACT
ABSTRACT
Facile access to univalent Ga+ and In+ salts of the perfluorinated [Al(ORF)4]− anion (RF = C(CF3)3) allowed, for the first time, an investigation of the coordination chemistry of these simple cations. After investigating phosphanes, ethers, N-heterocyclic carbenes as well as bulky 2,6-tBu2-pyridine or pyrazine as ligands, the application of the classical 2,2'-bipyridine (bipy) ligand gave very unexpected results: bipy triggers a disproportionation of the univalent gallium salt [Ga(C6H5F)2]+[Al(ORF)4]−. In the resultant monomeric and paramagnetic [Ga(bipy)3]2+ complex, the gallium cation is coordinated in a distorted octahedral fashion by three bipy ligands. Electron paramagnetic resonance showed the ligand to be non-innocent, and the radical is the ligand centered with a GaIII cation. By contrast, upon changing to [In(C6H5F)2]+[Al(ORF)4]−, highly charged triangular and rhombic In3- and In4-clusters are formed, i.e. [In3(bipy)6]3+, [In3(bipy)5]3+, and [In3(bipy)6]4+. These clusters are formed by an unusual cationic cluster formation mechanism that is induced by the high lattice energies of the resulting AB3 and AB4 salts as well as charge transfer from bipy ligand to In+ cation.
Funding
This work was supported by the DFG.
Notes
1. Available at www.iolitec.de.