Structure Distortion Endows Copper Nanoclusters with Surface-Active Uncoordinated Sites for Boosting Catalysis

IF 8.5 Q1 CHEMISTRY, MULTIDISCIPLINARY
Jing Sun, Qingyuan Wu, Xiaodan Yan, Lei Li, Xiongkai Tang, Xuekun Gong, Bingzheng Yan, Qinghua Xu, Qingxiang Guo, Jinlu He* and Hui Shen*, 
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Abstract

The utilization of structure distortion to modulate the electronic structure and alter catalytic properties of metallic nanomaterials is a well-established practice, but accurately identifying and comprehensively understanding these distortions present significant challenges. Ligand-stabilized metal nanoclusters with well-defined structures serve as exemplary model systems to illustrate the structure chemistry of nanomaterials, among which few studies have investigated nanocluster models that incorporate structural distortions. In this work, a novel copper hydride nanocluster, Cu42(PPh3)8(RS)4(CF3COO)10(CH3O)4H10 (Cu42; PPh3 is triphenylphosphine and RSH is 2,4-dichlorophenylthiol), with a highly twisted structure has been synthesized in a simple way. Structural analysis reveals Cu42 comprises two Cu25 units that are conjoined in a nearly orthogonal manner. The dramatic distortion in the metal framework, which is driven by multiple interactions from the surface ligands, endows the cluster with a rich array of uncoordinated metal sites on the surface. The resulting cluster, as envisioned, exhibits remarkable activity in catalyzing carbonylation of anilines. The findings from this study not only provides atomically precise insights into the structural distortions that are pertinent to nanoparticle catalysts but also underscores the potential of structurally distorted NCs as a burgeoning generation of catalysts with precise structures and outstanding performances that can be tailored for specific functions.

Abstract Image

结构畸变赋予纳米铜簇表面活性非配位位点以促进催化反应
利用结构畸变来调节金属纳米材料的电子结构并改变其催化特性是一种行之有效的做法,但准确识别和全面理解这些畸变是一项重大挑战。配体稳定的金属纳米簇具有定义明确的结构,是说明纳米材料结构化学性质的典范模型系统,其中很少有研究对包含结构畸变的纳米簇模型进行调查。本研究以简单的方法合成了具有高度扭曲结构的新型氢化物铜纳米簇 Cu42(PPh3)8(RS)4(CF3COO)10(CH3O)4H10(Cu42;PPh3 为三苯基膦,RSH 为 2,4-二氯苯硫醇)。结构分析表明,Cu42 由两个几乎正交连接的 Cu25 单元组成。在表面配体的多重作用下,金属框架发生了剧烈扭曲,从而使该簇表面具有丰富的非配位金属位点阵列。由此产生的簇在催化苯胺羰基化过程中表现出卓越的活性。这项研究的发现不仅从原子上精确地揭示了与纳米粒子催化剂相关的结构畸变,而且还强调了结构畸变的 NCs 作为新一代催化剂的潜力,它具有精确的结构和出色的性能,可针对特定功能进行定制。
本文章由计算机程序翻译,如有差异,请以英文原文为准。
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CiteScore
9.10
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