用于光催化可再生制氢的单原子铜锚定催化剂，量子效率为56。

Single-atom Cu anchored catalysts for photocatalytic renewable H production with a quantum efficiency of 56.

作者信息

Zhang Yumin, Zhao Jianhong, Wang Hui, Xiao Bin, Zhang Wen, Zhao Xinbo, Lv Tianping, Thangamuthu Madasamy, Zhang Jin, Guo Yan, Ma Jiani, Lin Lina, Tang Junwang, Huang Rong, Liu Qingju

机构信息

Yunnan Key Laboratory for Micro/Nano Materials & Technology, National Center for International Research on Photoelectric and Energy Materials, School of Materials and Energy, Yunnan University, Kunming, 650091, China.

Department of Chemical Engineering, University College London, London, WC1E 7JE, UK.

出版信息

Nat Commun. 2022 Jan 10;13(1):58. doi: 10.1038/s41467-021-27698-3.

DOI:10.1038/s41467-021-27698-3

PMID:35013219

原文链接:https://pmc.ncbi.nlm.nih.gov/articles/PMC8748625/

Abstract

Single-atom catalysts anchoring offers a desirable pathway for efficiency maximization and cost-saving for photocatalytic hydrogen evolution. However, the single-atoms loading amount is always within 0.5% in most of the reported due to the agglomeration at higher loading concentrations. In this work, the highly dispersed and large loading amount (>1 wt%) of copper single-atoms were achieved on TiO, exhibiting the H evolution rate of 101.7 mmol g h under simulated solar light irradiation, which is higher than other photocatalysts reported, in addition to the excellent stability as proved after storing 380 days. More importantly, it exhibits an apparent quantum efficiency of 56% at 365 nm, a significant breakthrough in this field. The highly dispersed and large amount of Cu single-atoms incorporation on TiO enables the efficient electron transfer via Cu-Cu process. The present approach paves the way to design advanced materials for remarkable photocatalytic activity and durability.

摘要

单原子催化剂锚定提供了一条实现光催化析氢效率最大化和成本节约的理想途径。然而，由于在较高负载浓度下会发生团聚，在大多数已报道的研究中，单原子负载量始终在0.5%以内。在这项工作中，在TiO上实现了高分散且大负载量（>1 wt%）的铜单原子，在模拟太阳光照射下表现出101.7 mmol g h的析氢速率，这高于其他已报道的光催化剂，此外，在储存380天后证明具有优异的稳定性。更重要的是，它在365 nm处表现出56%的表观量子效率，这是该领域的一个重大突破。TiO上高分散且大量的Cu单原子掺入使得通过Cu-Cu过程实现高效电子转移。本方法为设计具有卓越光催化活性和耐久性的先进材料铺平了道路。

https://cdn.ncbi.nlm.nih.gov/pmc/blobs/7cf3/8748625/f4fd8933ee9c/41467_2021_27698_Fig1_HTML.jpg

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用于光催化可再生制氢的单原子铜锚定催化剂，量子效率为56。

Single-atom Cu anchored catalysts for photocatalytic renewable H production with a quantum efficiency of 56.

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