通过反向阳离子交换反应多功能合成空心金属硫化物用于光催化CO还原

Versatile Synthesis of Hollow Metal Sulfides via Reverse Cation Exchange Reactions for Photocatalytic CO Reduction.

作者信息

Zeng Ruijin, Lian Kangkang, Su Bo, Lu Liling, Lin Jingwen, Tang Dianping, Lin Sen, Wang Xinchen

机构信息

Key Laboratory for Analytical Science of Food Safety and Biology (MOE & Fujian Province), State Key Laboratory of Photocatalysis on Energy and Environment, Department of Chemistry, Fuzhou University, Fuzhou, 350108, China.

出版信息

Angew Chem Int Ed Engl. 2021 Nov 15;60(47):25055-25062. doi: 10.1002/anie.202110670. Epub 2021 Oct 20.

DOI:10.1002/anie.202110670

PMID:34490697

Abstract

Herein, we explore a general Cu S nanocube template-assisted and reverse cation exchange-mediated growth strategy for fabricating hollow multinary metal sulfide. Unlike the traditional cation exchange method controlled by the metal sulfide constant, the introduction of tri-n-butylphosphine (TBP) can reverse cation exchange to give a series of hollow metal sulfides. A variety of hollow multinary metal sulfide cubic nanostructures has been demonstrated while preserving anisotropic shapes to the as-synthesized templates, including binary compounds (CdS, ZnS, Ag S, PbS, SnS), ternary compound (CuInS , Zn Cd S), and quaternary compound (single-atom platinum anchored Zn Cd S; Zn Cd S-Pt ). Experimental and density functional theory (DFT) calculations show that the hollow metal sulfide semiconductors obtained could significantly improve the separation and migration of photogenerated electron-hole pairs. Owing to the efficient charge transfer, the Zn Cd S-Pt exhibited outstanding photocatalytic performance of CO to CO, with the highest CO generation rate of 75.31 μmol h .

摘要

在此，我们探索了一种通用的硫化铜纳米立方体模板辅助和反向阳离子交换介导的生长策略，用于制备中空多元金属硫化物。与由金属硫化物常数控制的传统阳离子交换方法不同，三正丁基膦（TBP）的引入可以使阳离子交换反向进行，从而得到一系列中空金属硫化物。已经展示了多种中空多元金属硫化物立方纳米结构，同时保留了与合成模板相同的各向异性形状，包括二元化合物（硫化镉、硫化锌、硫化银、硫化铅、硫化锡）、三元化合物（硫化铜铟、硫化锌镉）和四元化合物（单原子铂锚定的硫化锌镉；硫化锌镉 - 铂）。实验和密度泛函理论（DFT）计算表明，所获得的中空金属硫化物半导体可以显著改善光生电子 - 空穴对的分离和迁移。由于有效的电荷转移，硫化锌镉 - 铂表现出将一氧化碳光催化转化为二氧化碳的出色性能，最高二氧化碳生成速率为75.31 μmol·h 。

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通过反向阳离子交换反应多功能合成空心金属硫化物用于光催化CO还原

Versatile Synthesis of Hollow Metal Sulfides via Reverse Cation Exchange Reactions for Photocatalytic CO Reduction.

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