Structure, optical properties, and catalytic applications of alkynyl-protected M 4 Rh 2 (M = Ag/Au) nanoclusters with atomic precision: a comparative study

We report two atomically precise alloy nanoclusters of Ag Rh (CCAr ) (PPh ) and Au Rh (CCAr ) (PPh ) (Ar = 3,5-(CF ) C H , abbreviated as Ag Rh and Au Rh , respectively) co-protected by alkynyl and phosphine ligands. Both clusters have identical octahedral metal core configurations and can be term...

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Published in:Dalton transactions : an international journal of inorganic chemistry 2023-07, Vol.52 (27), p.9441-9447
Main Authors: Chen, Leyi, Sun, Fang, Shen, Quanli, Wang, Lei, Liu, Yonggang, Fan, Hao, Tang, Qing, Tang, Zhenghua
Format: Article
Language:English
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Summary:We report two atomically precise alloy nanoclusters of Ag Rh (CCAr ) (PPh ) and Au Rh (CCAr ) (PPh ) (Ar = 3,5-(CF ) C H , abbreviated as Ag Rh and Au Rh , respectively) co-protected by alkynyl and phosphine ligands. Both clusters have identical octahedral metal core configurations and can be termed superatoms with two free electrons. However, they possess different optical features, manifested by totally different absorbance peaks, and drastically different emission peaks, and also, Ag Rh has a much higher fluorescence quantum yield (18.43%) than Au Rh (4.98%). Moreover, Au Rh exhibited markedly superior catalytic performance in the electrochemical hydrogen evolution reaction (HER), manifested by a much lower overpotential at 10 mA cm and better stability. Density functional theory (DFT) calculations revealed that the free energy change of Au Rh for the adsorption of two H* (0.64 eV) is lower than that of Ag Rh for the adsorption of one H* (-0.90 eV) after stripping a single alkynyl ligand from the cluster. In contrast, Ag Rh demonstrated much stronger catalytic capability for catalyzing 4-nitrophenol reduction. The present study provides an exquisite example to understand the structure-property relationship of atomically precise alloy nanoclusters, and emphasizes the importance of fine-tuning of the physicochemical properties and catalytic performance of the metal nanoclusters through modulating the metal core and beyond.
ISSN:1477-9226
1477-9234
DOI:10.1039/D3DT01326J