Photoelectrochemical (PEC) water splitting has attracted great attention in the past several decades as it holds great promise to address global energy and environmental issues by converting solar energy into hydrogen. However, its low solar-to-hydrogen (STH) conversion efficiency remains a bottleneck for practical application. Developing efficient photoelectrocatalysts with high stability and high STH conversion efficiency is one of the key challenges. As a typical n-type semiconductor, titanium dioxide (TiO2 ) exhibits high PEC water splitting performance, especially high chemical and photo stability. But, TiO2 has also disadvantages such as wide band gap and fast electron-hole recombination rate, which seriously hinder its PEC performance. This review focuses on recent development in TiO2 -based photoanodes as well as some key fundamentals. The corresponding mechanisms and key factors for high STH, and controllable synthesis and modification strategies are highlighted in this review. We conclude finally with an outlook providing a critical perspective on future trends on TiO2 -based photoanodes for PEC water splitting.
Keywords: TiO2s; charge transport; photoanode; photoelectrocatalysi; water splitting.
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