快速热加工和改进 Bi2O3-BaTiO3 异质结的光催化性能

IF 2.1 4区 工程技术 Q3 CHEMISTRY, PHYSICAL International Journal of Photoenergy Pub Date : 2024-03-20 DOI:10.1155/2024/3777201
Lina Bing, Wei Wu, Zhenjiang Shen
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引用次数: 0

摘要

通过快速热处理(RTP)直接合成了具有高光催化效率的Bi2O3-BaTiO3异质结。将 Bi2O3 和 BaTiO3 按比例混合,分别用 RTP 和传统热处理(CTP)方法处理。RTP 样品具有明显的 Bi2O3 衍射峰,而 CTP 样品则显示出纯正的 BaTiO3 四方包晶。RTP 样品中存在更多的小颗粒和分层。甲基溴溶液的光降解表明,RTP 可以提高光催化效率。其主要表现在以下几点:RTP 可以通过强化结合晶粒来消除晶界缺陷;RTP 可以将两种物质的溶液区域限制在一定范围内,以获得最佳的内置电场宽度;RTP 可以强化 BaTiO3 的四方相,加速离子移动。因此,RTP 可以通过改善构建异质结来实现更高的光催化效率。这项工作为改善异质结的性能提供了一条直接而有效的途径。
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Rapid Thermal Processing and Improved Photocatalysis of Bi2O3-BaTiO3 Heterojunction
Bi2O3-BaTiO3 heterojunction with high photocatalysis efficiency was directly synthesized by rapid thermal processing (RTP). Bi2O3 and BaTiO3 were mixed in ratio and treated by RTP and conventional thermal processing (CTP), respectively. RTP samples have obvious Bi2O3 diffraction peaks, while CTP samples show pure BaTiO3 tetragonal perovskite. More small particles and layered existed in RTP samples. Photodegradation of MB solutions shows that RTP can promote photocatalytic efficiency. Its main lies in the following points: RTP can remove grain boundary defects by strengthening the bond grains; RTP can limit the solution region of the two substances to a certain range to get the best built-in electric field width; and RTP can strengthen the tetragonal BaTiO3 phase to hasten ion movement. Therefore, RTP can achieve much higher photocatalytic efficiency by improving the build heterojunction. This work provides a direct and efficient route to get improvement and high performance of heterojunction.
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来源期刊
CiteScore
6.00
自引率
3.10%
发文量
128
审稿时长
3.6 months
期刊介绍: International Journal of Photoenergy is a peer-reviewed, open access journal that publishes original research articles as well as review articles in all areas of photoenergy. The journal consolidates research activities in photochemistry and solar energy utilization into a single and unique forum for discussing and sharing knowledge. The journal covers the following topics and applications: - Photocatalysis - Photostability and Toxicity of Drugs and UV-Photoprotection - Solar Energy - Artificial Light Harvesting Systems - Photomedicine - Photo Nanosystems - Nano Tools for Solar Energy and Photochemistry - Solar Chemistry - Photochromism - Organic Light-Emitting Diodes - PV Systems - Nano Structured Solar Cells
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