具有嵌入式准平面异质结特性的 WO3-Nb2O5-ZnIn2S4 的组装及其高效稳定的暗态光电化学阴极保护性能

IF 11.2 1区 材料科学 Q1 MATERIALS SCIENCE, MULTIDISCIPLINARY
Wanfeng Li, Kaixuan Wang, Weihua Li
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引用次数: 0

摘要

构建具有高暗态保护性能和高稳定性的光阳极仍然是光电化学阴极保护技术的当务之急,尤其是在没有空穴清除剂的海洋环境(暗态或雨天)中。在这项工作中,我们开发了一类具有定向路径(低起始电位和良好匹配的能带)和嵌入形态的储能准平面异质结(WO3-Nb2O5-ZnIn2S4)。嵌入式和定向路径的共同设计降低了复合界面上的载流子传输能垒,增加了界面接触面积,从而在不含空穴清除剂的 3.5 wt.% NaCl 溶液中实现了高度稳定和灵敏的暗态储能和光电化学阴极保护性能(暗态储能效率提高了 43%)。对于碳钢,500 次循环后的性能保持率为 99.6%,5000 秒后的性能保持率为 89%)。
本文章由计算机程序翻译,如有差异,请以英文原文为准。

Assembly of WO3-Nb2O5-ZnIn2S4 with embedded quasi-planar heterojunction characteristics and its efficient and stable dark-state photoelectrochemical cathodic protection performance

Assembly of WO3-Nb2O5-ZnIn2S4 with embedded quasi-planar heterojunction characteristics and its efficient and stable dark-state photoelectrochemical cathodic protection performance
Constructing a photoanode with both high dark-state protection performance and high stability remains a top priority for photoelectrochemical cathodic protection technology, especially in a marine environment (dark-state or rainy conditions) without hole scavenging agents. In this work, we developed a class of energy-storage quasi-planar heterojunctions (WO3-Nb2O5-ZnIn2S4) with directional paths (low onset potential and well-matched energy band) and embedded morphology. The co-design of embedded and directional paths reduces the carrier transport energy barrier at the composite interface, and increases the interface contact area, thereby achieving highly stable and sensitive dark-state energy storage and photoelectrochemical cathodic protection performance in 3.5 wt.% NaCl solution without hole scavenging agent (Dark-state energy storage efficiency increased by 43%. For carbon steel, the performance retention rate is 99.6% after 500 cycles, the performance retention rate is 89% after 5000 s).
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来源期刊
Journal of Materials Science & Technology
Journal of Materials Science & Technology 工程技术-材料科学:综合
CiteScore
20.00
自引率
11.00%
发文量
995
审稿时长
13 days
期刊介绍: Journal of Materials Science & Technology strives to promote global collaboration in the field of materials science and technology. It primarily publishes original research papers, invited review articles, letters, research notes, and summaries of scientific achievements. The journal covers a wide range of materials science and technology topics, including metallic materials, inorganic nonmetallic materials, and composite materials.
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