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Mechanistic Study of the Hydride Migration-Induced Reversible Isomerization in Au<sub>22</sub>(SR)<sub>15</sub>H Isomers

Qinzhen Li, Yesen Tan, Baoyu Huang, Sha Yang, Jinsong Chai, Xiaoping Wang, Yong Pei, Manzhou Zhu

2023Journal of the American Chemical Society36 citationsDOI

Abstract

Unraveling the evolution mechanism of metal nanoclusters is of great importance in understanding the formation and evolution of metallic condensed matters. In this work, the specific evolution process between a pair of gold nanocluster (Au NC) isomers is completely revealed by introducing hydride ligands to simplify the research system. A hydride-containing Au NC, Au 22 (SR) 15 H, was synthesized by kinetic control, and the positions of the hydrides were then confirmed by combining X-ray diffraction, neutron diffraction, and DFT calculations. Importantly, a reversible structural isomerization was found to occur on this Au 22 (SR) 15 H. By combining the crystal structures and theoretical calculations, the focus was placed on the hydride-binding site, and a [Au–H] migration mechanism of this isomerization process is clearly shown. Furthermore, this [Au–H] migration mechanism is confirmed by the subsequent capture and structural determination of theoretically predicted intermediates. This work provides insight into the dynamic behavior of hydride ligands in nanoclusters and a strategy to study the evolution mechanism of nanoclusters by taking the hydride ligand as the breakthrough point.

Topics & Concepts

NanoclustersIsomerizationHydrideChemistryCrystallographyMetalNeutron diffractionComputational chemistryCrystal structureCatalysisOrganic chemistryNanocluster Synthesis and ApplicationsPharmacological Effects and Toxicity StudiesAdvanced Nanomaterials in Catalysis
Mechanistic Study of the Hydride Migration-Induced Reversible Isomerization in Au<sub>22</sub>(SR)<sub>15</sub>H Isomers | Litcius