Catalytically active atomically thin cuprate with periodic Cu single sites

Rational design and synthesis of catalytically active two-dimensional (2D) materials with an abundance of atomically precise active sites in their basal planes remains a great challenge. Here, we report a ligand exchange strategy to exfoliate bulk [Cu(4)(OH)(6)][O(3)S(CH(2))(4)SO(3)] cuprate crystal...

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Autores principales: Yang, Huimin, Xi, Shibo, Guo, Na, Wang, Mu, Liu, Lingmei, Lyu, Pin, Yu, Xiaolong, Li, Jing, Xu, Haomin, Hai, Xiao, Li, Zejun, Li, Xinzhe, Sun, Tao, Zhao, Xiaoxu, Han, Yu, Yu, Wei, Wu, Jie, Zhang, Chun, Fei, Honghan, Koh, Ming Joo, Lu, Jiong
Formato: Online Artículo Texto
Lenguaje:English
Publicado: Oxford University Press 2022
Materias:
Research Article
Acceso en línea:https://www.ncbi.nlm.nih.gov/pmc/articles/PMC9985158/
https://www.ncbi.nlm.nih.gov/pubmed/36879660
http://dx.doi.org/10.1093/nsr/nwac100
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author Yang, Huimin
Xi, Shibo
Guo, Na
Wang, Mu
Liu, Lingmei
Lyu, Pin
Yu, Xiaolong
Li, Jing
Xu, Haomin
Hai, Xiao
Li, Zejun
Li, Xinzhe
Sun, Tao
Zhao, Xiaoxu
Han, Yu
Yu, Wei
Wu, Jie
Zhang, Chun
Fei, Honghan
Koh, Ming Joo
Lu, Jiong
author_facet Yang, Huimin
Xi, Shibo
Guo, Na
Wang, Mu
Liu, Lingmei
Lyu, Pin
Yu, Xiaolong
Li, Jing
Xu, Haomin
Hai, Xiao
Li, Zejun
Li, Xinzhe
Sun, Tao
Zhao, Xiaoxu
Han, Yu
Yu, Wei
Wu, Jie
Zhang, Chun
Fei, Honghan
Koh, Ming Joo
Lu, Jiong
author_sort Yang, Huimin
collection PubMed
description Rational design and synthesis of catalytically active two-dimensional (2D) materials with an abundance of atomically precise active sites in their basal planes remains a great challenge. Here, we report a ligand exchange strategy to exfoliate bulk [Cu(4)(OH)(6)][O(3)S(CH(2))(4)SO(3)] cuprate crystals into atomically thin 2D cuprate layers ([Cu(2)(OH)(3)](+)). The basal plane of 2D cuprate layers contains periodic arrays of accessible unsaturated Cu(II) single sites (2D-CuSSs), which are found to promote efficient oxidative Chan-Lam coupling. Our mechanistic studies reveal that the reactions proceed via coordinatively unsaturated CuO(4)(II) single sites with the formation of Cu(I) species in the rate-limiting step, as corroborated by both operando experimental and theoretical studies. The robust stability of 2D-CuSSs in both batch and continuous flow reactions, coupled with their recyclability and good performance in complex molecule derivatization, render 2D-CuSSs attractive catalyst candidates for broad utility in fine chemical synthesis.
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spelling pubmed-99851582023-03-05 Catalytically active atomically thin cuprate with periodic Cu single sites Yang, Huimin Xi, Shibo Guo, Na Wang, Mu Liu, Lingmei Lyu, Pin Yu, Xiaolong Li, Jing Xu, Haomin Hai, Xiao Li, Zejun Li, Xinzhe Sun, Tao Zhao, Xiaoxu Han, Yu Yu, Wei Wu, Jie Zhang, Chun Fei, Honghan Koh, Ming Joo Lu, Jiong Natl Sci Rev Research Article Rational design and synthesis of catalytically active two-dimensional (2D) materials with an abundance of atomically precise active sites in their basal planes remains a great challenge. Here, we report a ligand exchange strategy to exfoliate bulk [Cu(4)(OH)(6)][O(3)S(CH(2))(4)SO(3)] cuprate crystals into atomically thin 2D cuprate layers ([Cu(2)(OH)(3)](+)). The basal plane of 2D cuprate layers contains periodic arrays of accessible unsaturated Cu(II) single sites (2D-CuSSs), which are found to promote efficient oxidative Chan-Lam coupling. Our mechanistic studies reveal that the reactions proceed via coordinatively unsaturated CuO(4)(II) single sites with the formation of Cu(I) species in the rate-limiting step, as corroborated by both operando experimental and theoretical studies. The robust stability of 2D-CuSSs in both batch and continuous flow reactions, coupled with their recyclability and good performance in complex molecule derivatization, render 2D-CuSSs attractive catalyst candidates for broad utility in fine chemical synthesis. Oxford University Press 2022-05-25 /pmc/articles/PMC9985158/ /pubmed/36879660 http://dx.doi.org/10.1093/nsr/nwac100 Text en © The Author(s) 2022. Published by Oxford University Press on behalf of China Science Publishing & Media Ltd. https://creativecommons.org/licenses/by/4.0/This is an Open Access article distributed under the terms of the Creative Commons Attribution License (https://creativecommons.org/licenses/by/4.0/), which permits unrestricted reuse, distribution, and reproduction in any medium, provided the original work is properly cited.
spellingShingle Research Article
Yang, Huimin
Xi, Shibo
Guo, Na
Wang, Mu
Liu, Lingmei
Lyu, Pin
Yu, Xiaolong
Li, Jing
Xu, Haomin
Hai, Xiao
Li, Zejun
Li, Xinzhe
Sun, Tao
Zhao, Xiaoxu
Han, Yu
Yu, Wei
Wu, Jie
Zhang, Chun
Fei, Honghan
Koh, Ming Joo
Lu, Jiong
Catalytically active atomically thin cuprate with periodic Cu single sites
title Catalytically active atomically thin cuprate with periodic Cu single sites
title_full Catalytically active atomically thin cuprate with periodic Cu single sites
title_fullStr Catalytically active atomically thin cuprate with periodic Cu single sites
title_full_unstemmed Catalytically active atomically thin cuprate with periodic Cu single sites
title_short Catalytically active atomically thin cuprate with periodic Cu single sites
title_sort catalytically active atomically thin cuprate with periodic cu single sites
topic Research Article
url https://www.ncbi.nlm.nih.gov/pmc/articles/PMC9985158/
https://www.ncbi.nlm.nih.gov/pubmed/36879660
http://dx.doi.org/10.1093/nsr/nwac100
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