用于制氢和制甲醇的铜锌氧化物异质结构光阴极

IF 8.1 2区材料科学 Q1 MATERIALS SCIENCE, MULTIDISCIPLINARY

Materials Today Advances Pub Date : 2024-03-06 DOI:10.1016/j.mtadv.2024.100477

Tomasz Baran, Szymon Wojtyła, Marco Scavini, Francesco Carlà, Edmund Welter, Roberto Comparelli, Angela Dibenedetto, Michele Aresta

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引用次数: 0

摘要

活性低和寿命短是光催化剂的主要缺点。众所周知，氧化铜是最有前途的 H 演化和 CO 还原材料之一，它的光活性可以通过与其他半导体耦合而得到改善。这种效应基于电荷的相互转移。在可见光照射下，这种复合材料能产生水分裂，而在二氧化碳存在的情况下，它能以良好的选择性将一氧化碳还原成甲醇，并与水氧化作用相结合。氧化铜基阴极的高活性是由于氧化锌的存在，而氧化锌会逐渐被沥滤，导致材料的光活性缓慢下降。

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Copper–zinc oxide heterostructure photocathodes for hydrogen and methanol production

Low activity and a short lifetime are the main weaknesses of photocatalysts. The photoactivity of copper oxide, which is known as one of the most promising materials for H evolution and CO reduction, can be improved by coupling with other semiconductors. This effect is based on a mutual charge transfer. The photocathode developed in this work, based on a CuO–ZnO composite with mutual self-doping, exhibits attractive photoelectrochemical properties, in particular a high density of generated photocurrent lasting for 24 h. Under visible light irradiation, the composite produces water-splitting, while in the presence of carbon dioxide it is able to perform CO reduction to methanol with good selectivity coupled to water oxidation. The high activity of the CuO-based cathode is due to the presence of zinc oxide, which is progressively leached, causing a slow decrease of the photoactivity of the material.

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来源期刊

Materials Today Advances MATERIALS SCIENCE, MULTIDISCIPLINARY-

CiteScore

14.30

自引率

2.00%

发文量

116

审稿时长

32 days

期刊介绍： Materials Today Advances is a multi-disciplinary, open access journal that aims to connect different communities within materials science. It covers all aspects of materials science and related disciplines, including fundamental and applied research. The focus is on studies with broad impact that can cross traditional subject boundaries. The journal welcomes the submissions of articles at the forefront of materials science, advancing the field. It is part of the Materials Today family and offers authors rigorous peer review, rapid decisions, and high visibility.