State-of-the-art progress in the use of ternary metal oxides as photoelectrode materials for water splitting and organic synthesis

Ternary metal oxides could be promising photoelectrode materials for water splitting and organic synthesis [Display omitted] •The properties and limitations of ternary metal oxides for solar water splitting and organic synthesis are introduced.•Modified strategies for the photoelectrochemical perfor...

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Bibliographic Details
Published in:Nano today 2019-10, Vol.28, p.100763, Article 100763
Main Authors: He, Huichao, Liao, Aizhen, Guo, Wenlong, Luo, Wenjun, Zhou, Yong, Zou, Zhigang
Format: Article
Language:English
Subjects:
Photoelectrochemical organic synthesis
Photoelectrochemical water splitting
Ternary metal oxides
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Summary:Ternary metal oxides could be promising photoelectrode materials for water splitting and organic synthesis [Display omitted] •The properties and limitations of ternary metal oxides for solar water splitting and organic synthesis are introduced.•Modified strategies for the photoelectrochemical performance of ternary metal oxide photoelectrodes are highlighted.•Recent developments of the ternary metal oxide photoelectrodes for water splitting and organic synthesis are summarized.•Future outlooks of water splitting and organic synthesis using ternary metal oxide photoelectrodes are presented. To tackle the issue of the depletion of fossil fuels and their environmental misdeeds, photoelectrochemical (PEC) water splitting and organic synthesis have been drawing increasing attention as promising environmentally friendly approaches for the production of hydrogen fuel and organics. In the past few decades, almost all possible binary metal oxide semiconductors have been investigated as photoelectrode materials for PEC applications; however, a satisfactory photoelectrode remains elusive. As a result, ternary metal oxide semiconductors have garnered worldwide attention in recent years as potential photoelectrode materials due to their unique advantages. In this review, we firstly introduced the fundamental properties and limitations of ternary metal oxide semiconductors for PEC water splitting and organic synthesis. Then, modified strategies for the performance of ternary metal oxide photoelectrodes are highlighted. Next, recent developments in the use of ternary metal oxide semiconductors as photoelectrode materials for water splitting and organic synthesis are summarized. Finally, several perspectives are presented with respect to the future outlook of PEC water splitting and organic synthesis using ternary metal oxide photoelectrodes. This review provides a systematic overview of the developing information and a referential direction for this research field.
ISSN:1748-0132
1878-044X
DOI:10.1016/j.nantod.2019.100763