Atomically Precise Metal Nanoclusters as Single Electron Transferers for Hydroborylation

Abstract

<p>The emergence of metal nanoclusters with atomically precise compositions and structures provides an opportunity for in-depth investigation of catalysis mechanisms and structure–property correlations at the nanoscale. However, a serious problem for metal nanocluster catalysts is that the ligands inhibit the catalytic activity through deactivating the surface of the nanoclusters. Here, we introduce a novel catalytic mode for metal nanoclusters, in which the nanoclusters initiate the catalysis via single electron transfer (SET) without destroying the integrity of nanoclusters, providing a solution for the contradiction between activity and stability of metal nanoclusters. We illustrated that the novel activation mode featured low catalyst loading (0.01 mol %), high TOF, mild reaction conditions, and easy recycling of catalyst in alkyne hydroborylation, which often suffered from poor selectivity, low functional group tolerance, etc. Furthermore, the catalyst [Au₁Cu₁₄(TBBT)₁₂(PPh₃)₆]⁺ (TBBTH: <em>p</em>-<em>tert</em>-butylthiophenol) can be applied in highly efficient tandem processes such as hydroborylation–deuteration and hydroborylation–isomerization, demonstrating the utility of the introduced activation mode for metal nanoclusters.</p>