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Scalable water splitting on particulate photocatalyst sheets with a solar-to-hydrogen energy conversion efficiency exceeding 1%

Photocatalytic water splitting using particulate semiconductors is a potentially scalable and economically feasible technology for converting solar energy into hydrogen. Z-scheme systems based on two-step photoexcitation of a hydrogen evolution photocatalyst (HEP) and an oxygen evolution photocatalyst (OEP) are suited to harvesting of sunlight because semiconductors with either water reduction or oxidation activity can be applied to the water splitting reaction. However, it is challenging to achieve efficient transfer of electrons between HEP and OEP particles. Here, we present photocatalyst sheets based on La- and Rh-codoped SrTiO3 (SrTiO3:La, Rh) and Mo-doped BiVO4 (BiVO4:Mo) powders embedded into a gold (Au) layer. Enhancement of the electron relay by annealing and suppression of undesirable reactions through surface modification allow pure water (pH 6.8) splitting with a solar-to-hydrogen energy conversion efficiency of 1.1% and an apparent quantum yield of over 30% at 419 nm. The photocatalyst sheet design enables efficient and scalable water splitting using particulate semiconductors.

Nature Materials (2016) doi:10.1038/nmat4589

http://www.nature.com/nmat/journal/vaop/ncurrent/full/nmat4589.html

中文报道(可打印光催化半导体板,显著提高太阳能-氢能转化效率)链接:
http://mp.weixin.qq.com/s?__biz=MzAwOTExNzg4Nw==&mid=409865304&idx=3&sn=d5143a84b440ced3220df080b141f963&scene=0#wechat_redirect

发布日期:2016/03/28 发布者: 点击数: