Light harvesting and charge transfer in metal oxide nanomaterials for hydrogen energy generation

K. Zakrzewska, A. Kusior, M. Radecka
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Abstract

Photoelectrochemical cells, PEC represent an important class of devices generating solar-hydrogen and create an attractive alternative to the traditional power sources. Practical application of PEC is hindered by numerous drawbacks of semiconducting light absorbers, the most important being: a mismatch between the spectrum of Sun and the fundamental absorption of the semiconducting photoanode. This review is devoted to new solutions related to the light harvesting and charge transport issues in TiO2-based PEC. Light management based on fitting the sunlight spectrum to the sensitivity of the device via a wavelength-shift operation, such as up-conversion, is proposed. Charge transport schemes required to reduce electron-hole pairs’ recombination depend on the form of the photoanode material with 1D nanorods and nanotubes being considered the best suited for this purpose.
用于制氢的金属氧化物纳米材料的光收集和电荷转移
光电化学电池(PEC)是一类重要的太阳能-氢发电设备,是传统能源的一个有吸引力的替代品。半导体光吸收剂的许多缺点阻碍了光电阴极的实际应用,其中最重要的是:太阳光谱与半导体光阳极的基本吸收不匹配。本文综述了二氧化钛基PEC中光收集和电荷传输问题的新解决方案。提出了一种基于波长移位操作(如上转换)拟合太阳光光谱与器件灵敏度的光管理方法。减少电子-空穴对复合所需的电荷传输方案取决于光阳极材料的形式,其中一维纳米棒和纳米管被认为是最适合这一目的的。
本文章由计算机程序翻译,如有差异,请以英文原文为准。
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