Synthesis and Characterization of Three Multi‐Shell Metalloid Gold Clusters Au₃₂(R₃P)₁₂Cl₈

Abstract

Abstract Three multi‐shell metalloid gold clusters of the composition Au 32 (R 3 P) 12 Cl 8 (R=Et, n Pr, n Bu) were synthesized in a straightforward fashion by reducing R 3 PAuCl with NaBH 4 in ethanol. The Au 32 core comprises two shells, with the inner one constituting a tilted icosahedron and the outer one showing a distorted dodecahedral arrangement. The outer shell is completed by eight chloride atoms and twelve R 3 P groups. The inner icosahedron shows bond lengths typical for elemental gold while the distances of the gold atoms in the dodecahedral arrangement are in the region of aurophilic interactions. Quantum‐chemical calculations illustrate that the Jahn–Teller effect observed within the cluster core can be attributed to the electronic shell filling. The easily reproducible synthesis, good solubility, and high yields of these clusters render them perfect starting points for further research.