Catalytic Conversion of C1 Molecules on Atomically Precise Metal Nanoclusters

Dan Yang; Yongnan Sun; Xiao Cai; Weigang Hu; Yihu Dai; Yan Zhu; Yanhui Yang

doi:10.31635/ccschem.021.202101188

Catalytic Conversion of C1 Molecules on Atomically Precise Metal Nanoclusters

Dan Yang, Yongnan Sun, Xiao Cai, Weigang Hu, Yihu Dai, Yan Zhu, Yanhui Yang

School of Chemistry and Moleculai Engineering

Research output: Contribution to journal › Article › peer-review

29 Scopus citations

Abstract

Metal nanoclusters with accurate compositions and precise crystalline structures hold remarkable attention in serving as a unique model catalyst for well-defined correlations between structure and catalytic activity. More importantly, these metal nanoclusters exhibit strong quantum confinement effects, which differ from their larger nanoparticles in a number of catalytic reactions. This review focuses on recent advances of atomically precise metal nanoclusters for C1 compound conversion (CO, CO2, CH4 , and HCOOH), including thermally-driven catalysis, photocatalysis, and electrocatalysis. The reaction mechanisms are discussed at an atomic- or even electron-level. It is anticipated that the progress in this research area could be extended to catalytic applications of metal nanoclusters in C1 chemistry.

Original language	English
Pages (from-to)	66-94
Number of pages	29
Journal	CCS Chemistry
Volume	4
Issue number	1
DOIs	https://doi.org/10.31635/ccschem.021.202101188
State	Published - 2022

Keywords

Atomically precise structure
C1 molecule
Catalysis
Metal nanocluster
Reactivity

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10.31635/ccschem.021.202101188

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abstract = "Metal nanoclusters with accurate compositions and precise crystalline structures hold remarkable attention in serving as a unique model catalyst for well-defined correlations between structure and catalytic activity. More importantly, these metal nanoclusters exhibit strong quantum confinement effects, which differ from their larger nanoparticles in a number of catalytic reactions. This review focuses on recent advances of atomically precise metal nanoclusters for C1 compound conversion (CO, CO2, CH4 , and HCOOH), including thermally-driven catalysis, photocatalysis, and electrocatalysis. The reaction mechanisms are discussed at an atomic- or even electron-level. It is anticipated that the progress in this research area could be extended to catalytic applications of metal nanoclusters in C1 chemistry.",

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AU - Sun, Yongnan

AU - Cai, Xiao

AU - Hu, Weigang

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AU - Zhu, Yan

AU - Yang, Yanhui

PY - 2022

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AB - Metal nanoclusters with accurate compositions and precise crystalline structures hold remarkable attention in serving as a unique model catalyst for well-defined correlations between structure and catalytic activity. More importantly, these metal nanoclusters exhibit strong quantum confinement effects, which differ from their larger nanoparticles in a number of catalytic reactions. This review focuses on recent advances of atomically precise metal nanoclusters for C1 compound conversion (CO, CO2, CH4 , and HCOOH), including thermally-driven catalysis, photocatalysis, and electrocatalysis. The reaction mechanisms are discussed at an atomic- or even electron-level. It is anticipated that the progress in this research area could be extended to catalytic applications of metal nanoclusters in C1 chemistry.

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Catalytic Conversion of C1 Molecules on Atomically Precise Metal Nanoclusters

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