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氯化银耦合Ag/Au中空异质结构的催化应用及机理研究:基于Ag/Au双金属界面的考量

Catalytic Application and Mechanism Studies of Argentic Chloride Coupled Ag/Au Hollow Heterostructures: Considering the Interface Between Ag/Au Bimetals.

作者信息

Liu Jun, Wu Zhaohui, He Quanguo, Tian Qingyong, Wu Wei, Xiao Xiangheng, Jiang Changzhong

机构信息

Hunan Key Laboratory of Biomedical Nanomaterials and Devices, Hunan University of Technology, Zhuzhou, 412007, People's Republic of China.

Laboratory of Printable Functional Nanomaterials and Printed Electronics, School of Printing and Packaging, Wuhan University, Wuhan, 430072, People's Republic of China.

出版信息

Nanoscale Res Lett. 2019 Jan 25;14(1):35. doi: 10.1186/s11671-019-2862-9.

DOI:10.1186/s11671-019-2862-9
PMID:30684022
原文链接:https://pmc.ncbi.nlm.nih.gov/articles/PMC6349269/
Abstract

For an economical use of solar energy, photocatalysts that are sufficiently efficient, stable, and capable of harvesting light are required. Composite heterostructures composed of noble metals and semiconductors exhibited the excellent in catalytic application. Here, 1D Ag/Au/AgCl hollow heterostructures are synthesized by galvanic replacement reaction (GRR) from Ag nanowires (NWs). The catalytic properties of these as-obtained Ag/Au/AgCl hollow heterostructures with different ratios are investigated by reducing 4-nitrophenol (Nip) into 4-aminophenol (Amp) in the presence of NaBH, and the influence of AgCl semiconductor to the catalytic performances of Ag/Au bimetals is also investigated. These hollow heterostructures show the higher catalytic properties than pure Ag NWs, and the AgCl not only act as supporting materials, but the excess AgCl is also the obstacle for contact of Ag/Au bimetals with reactive species. Moreover, the photocatalytic performances of these hollow heterostructures are carried out by degradation of acid orange 7 (AO7) under UV and visible light. These Ag/Au/AgCl hollow heterostructures present the higher photocatalytic activities than pure Ag NWs and commercial TiO (P25), and the Ag/Au bimetals enhance the photocatalytic activity of AgCl semiconductor via the localized surface plasmon resonance (LSPR) and plasmon resonance energy transfer (PRET) mechanisms. The as-synthesized 1D Ag/Au/AgCl hollow heterostructures with multifunction could apply in practical environmental remedy by catalytic manners.

摘要

为了经济地利用太阳能,需要高效、稳定且能够收集光的光催化剂。由贵金属和半导体组成的复合异质结构在催化应用中表现出色。在此,通过银纳米线(NWs)的电置换反应(GRR)合成了一维Ag/Au/AgCl中空异质结构。通过在NaBH存在下将4-硝基苯酚(Nip)还原为4-氨基苯酚(Amp),研究了这些不同比例的Ag/Au/AgCl中空异质结构的催化性能,并且还研究了AgCl半导体对Ag/Au双金属催化性能的影响。这些中空异质结构显示出比纯银纳米线更高的催化性能,并且AgCl不仅充当支撑材料,过量的AgCl也是Ag/Au双金属与反应物种接触的障碍。此外,通过在紫外光和可见光下降解酸性橙7(AO7)来测试这些中空异质结构的光催化性能。这些Ag/Au/AgCl中空异质结构表现出比纯银纳米线和商用TiO₂(P25)更高的光催化活性,并且Ag/Au双金属通过局域表面等离子体共振(LSPR)和等离子体共振能量转移(PRET)机制增强了AgCl半导体的光催化活性。所合成的具有多功能的一维Ag/Au/AgCl中空异质结构可以通过催化方式应用于实际环境修复。

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