Recent progress on photocatalytic and photoelectrochemical water splitting under visible light irradiation

• Published in: Journal of photochemistry and photobiology. C, Photochemistry reviews Vol. 11; no. 4; pp. 179 - 209
• Main Author: Abe, Ryu
• Format: Journal Article
• Language: English
• Published: Elsevier B.V 01.12.2010
• Subjects: Artificial photosynthesis; Hydrogen; Photocatalyst; Photoelectrode; Solar energy; Visible light; Water splitting; Water splitting; Hydrogen; Solar energy; Artificial photosynthesis; Visible light; Photocatalyst; Photoelectrode
• ISSN: 1389-5567; 1873-2739
• DOI: 10.1016/j.jphotochemrev.2011.02.003

► Water splitting systems workable under visible light is reviewed. ► Two photocatalysts combined with a redox mediator split water under visible light. ► A solid solution photocatalyst split water with one step under visible light. ► New types of cocatalysts effectively enhance water reduction on photocatalysts. ► Various visible light-responsive photoelectrodes show high IPCE values. Photocatalytic and photoelectrochemical (PEC) water splitting using semiconductor materials has attracted considerable interest due to its potential to cleanly produce H 2 from water by utilizing abundant solar light. Since Fujishima and Honda used a TiO 2 photoanode in 1972 to split water, researchers have been attempting to develop water-splitting systems that can efficiently use visible light (which accounts for almost half of the solar spectrum on the Earth's surface) in order to realize efficient conversion of solar light. In this report, we review recent progress in this field by focusing on strategies that utilize visible light. Such strategies include two-step photoexcitation systems that were inspired by photosynthesis in nature, band engineering for producing novel photocatalysts that have both a high visible light absorption and suitable energy levels for water splitting, the development of new cocatalysts for efficient H 2 or O 2 production, fabrication of efficient photoelectrodes based on visible-light-responsive semiconductors, and the construction of tandem-type PEC water-splitting systems.