Ordered Mesoporous Black TiO2 as Highly Efficient Hydrogen Evolution Photocatalyst

Mesoporous TiO2 has gained increasing interest because of its outstanding properties and promising applications in a wide range of fields. Herein, we report the facile synthesis of ordered mesoporous black TiO2 (OMBT) materials, which exhibit excellent photocatalytic hydrogen evolution performances....

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Bibliographic Details
Published in:Journal of the American Chemical Society 2014-07, Vol.136 (26), p.9280-9283
Main Authors: Zhou, Wei, Li, Wei, Wang, Jian-Qiang, Qu, Yang, Yang, Ying, Xie, Ying, Zhang, Kaifu, Wang, Lei, Fu, Honggang, Zhao, Dongyuan
Format: Article
Language:English
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Summary:Mesoporous TiO2 has gained increasing interest because of its outstanding properties and promising applications in a wide range of fields. Herein, we report the facile synthesis of ordered mesoporous black TiO2 (OMBT) materials, which exhibit excellent photocatalytic hydrogen evolution performances. In this case, the employment of a thermally stable and high-surface-area mesoporous TiO2 as the hydrogenation precursor is the key for fabricating the OMBT materials, which not only facilitate H2 gas diffusion into TiO2 and interaction with their structures but also maintain the ordered mesoporous structures as well as inhibit the phase transformation (from anatase to rutile) and crystal growth during hydrogenation at 500 °C. The resultant OMBT materials possess a relatively high surface area of ∼124 m2 g–1 and a large pore size and pore volume of ∼9.6 nm and 0.24 cm3 g–1, respectively. More importantly, the OMBT materials can extend the photoresponse from ultraviolet to visible and infrared light regions and exhibit a high solar-driven hydrogen production rate (136.2 μmol h–1), which is almost two times as high as that of pristine mesoporous TiO2 (76.6 μmol h–1).
ISSN:0002-7863
1520-5126
DOI:10.1021/ja504802q