用于水净化的高效 Ag6Si2O7/C-WO3 可见光光催化剂的构造和特性

IF 4.9 2区 化学 Q2 CHEMISTRY, PHYSICAL
Fangxiao Wang, Shundi Xia, Xinru Qin
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引用次数: 0

摘要

光催化氧化能在短时间内分解难以生物降解的大分子有机污染物,是缓解水环境危机的一种前景广阔的有效策略。然而,设计高效、稳定、长效的光催化剂仍是一项挑战。本文将 C-WO3 与 Ag6Si2O7 整合成 Ag6Si2O7/C-WO3 异质结,用于在可见光下降解有机污染物。这种催化剂能捕获更广范围的可见光,更有效地分散光生电荷,因此在光催化氧化和分解大型有机污染物方面表现出非凡的光催化性能。可见光照射 40 分钟后,有机物的去除率达到 99.1%,速率常数达到 0.0931 min-1,分别是相同条件下 WO3 和 C-WO3 的 35.1 倍和 13.5 倍。通过自由基捕获实验发现,h+ 在光催化反应中起主导作用。根据价带位置分析,绘制出了包括光生电子转移途径在内的合理光催化机理图。这项研究为构建用于水净化的高效光催化剂提供了新思路。
本文章由计算机程序翻译,如有差异,请以英文原文为准。
Construction and properties of highly efficient Ag6Si2O7/C-WO3 visible light photocatalyst for water purification
Photocatalytic oxidation decomposes large molecules of organic pollutants that are difficult to biodegrade in a short period of time is a promising and effective strategy to alleviate water environmental crises. However, designing efficient, stable, and long-lasting photocatalysts remains a challenge. This article integrates C-WO3 with Ag6Si2O7 to form a Ag6Si2O7/C-WO3 heterojunction for the degradation of organic pollutants under visible light. This catalyst can capture a wider range of visible light and disperse photogenerated charges more efficiently, thus demonstrating extraordinary photocatalytic performance in photocatalytic oxidation and decomposition of large organic pollutants. After visible light irradiation for 40 min, the removal rate of organic matter reached 99.1 %, and the rate constant reached 0.0931 min−1, which is 35.1 and 13.5 times that of WO3 and C-WO3 under the same conditions. Through free radical capture experiments, it was found that h+ plays a dominant role in photocatalytic reactions. In view of the analysis of valence band positions, a reasonable photocatalytic mechanism diagram including photo generated electron transfer pathways was drawn. This undertaking affords a new idea for constructing efficient photocatalysts for water purification.
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来源期刊
CiteScore
8.70
自引率
9.60%
发文量
2421
审稿时长
56 days
期刊介绍: Colloids and Surfaces A: Physicochemical and Engineering Aspects is an international journal devoted to the science underlying applications of colloids and interfacial phenomena. The journal aims at publishing high quality research papers featuring new materials or new insights into the role of colloid and interface science in (for example) food, energy, minerals processing, pharmaceuticals or the environment.
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