用于增强Cr(VI)压电光催化还原性能的Z型异质结HKUST-1/BiVO纳米棒复合材料的构建

Construction of the Z-Scheme Heterogeneous HKUST-1/BiVO Nanorod Composite for Enhanced Piezo-Photocatalytic Reduction Performance of Cr(VI).

作者信息

Huang Qiqi, Zhu Fuxiao, Xiao Feiyan, Zhang Gongliang, Hou Hongman, Bi Jingran, Yan Shuang, Hao Hongshun

机构信息

Department of Inorganic Nonmetallic Materials Engineering, Dalian Polytechnic University, Dalian 116034, China.

Liaoning Key Laboratory for Aquatic Processing Quality and Safety, Dalian Polytechnic University, Dalian 116034, China.

出版信息

Langmuir. 2024 Aug 19. doi: 10.1021/acs.langmuir.4c02834.

DOI:10.1021/acs.langmuir.4c02834

PMID:39158091

Abstract

In recent years, piezo-photocatalysis has become a promising strategy for solving environmental pollution problems by adding additional mechanical energy to the photocatalysis process. This work reported the effective synthesis of a variety of HKUST-1/BiVO heterogeneous materials by combining monoclinic BiVO and porous HKUST-1 semiconductors. The piezo-photocatalytic properties of HKUST-1/BiVO were studied by the reduction of hexavalent chromium (Cr(VI)) under visible-light irradiation and ultrasonic waves. In the piezo-photocatalysis process, the best reduction rates among as-prepared HKUST-1/BiVO composites were up to 96.20% of 10 ppm Cr(VI) solution, which was approximately 1.80 times that under visible light and about 4.13 times that under ultrasound. Under the action of the piezoelectric potential, the availability of free radicals increased the reduction rate of Cr(VI) and reached a synergistic effect of 1.14-fold.

摘要

近年来，压电光催化通过在光催化过程中添加额外的机械能，已成为解决环境污染问题的一种有前景的策略。这项工作报道了通过结合单斜相BiVO和多孔HKUST-1半导体，有效合成了多种HKUST-1/BiVO异质材料。通过在可见光照射和超声波作用下还原六价铬（Cr(VI)），研究了HKUST-1/BiVO的压电光催化性能。在压电光催化过程中，所制备的HKUST-1/BiVO复合材料中最佳的还原率在10 ppm Cr(VI)溶液中高达96.20%，约为可见光下的1.80倍，超声波下的4.13倍。在压电势的作用下，自由基的可用性提高了Cr(VI)的还原率，并达到了1.14倍的协同效应。

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用于增强Cr(VI)压电光催化还原性能的Z型异质结HKUST-1/BiVO纳米棒复合材料的构建

Construction of the Z-Scheme Heterogeneous HKUST-1/BiVO Nanorod Composite for Enhanced Piezo-Photocatalytic Reduction Performance of Cr(VI).

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