用于高效析氧以推动串联电池发展的透明钽氮化物光阳极

Transparent Ta N Photoanodes for Efficient Oxygen Evolution toward the Development of Tandem Cells.

作者信息

Higashi Tomohiro, Nishiyama Hiroshi, Suzuki Yohichi, Sasaki Yutaka, Hisatomi Takashi, Katayama Masao, Minegishi Tsutomu, Seki Kazuhiko, Yamada Taro, Domen Kazunari

机构信息

Department of Chemical System Engineering, School of Engineering, The University of Tokyo, 7-3-1 Hongo, Bunkyo-ku, Tokyo, 113-8656, Japan.

National Institute of Advanced Industrial Science and Technology, 1-1-1 Higashi, Tsukuba, Ibaraki, 305-8565, Japan.

出版信息

Angew Chem Int Ed Engl. 2019 Feb 18;58(8):2300-2304. doi: 10.1002/anie.201812081. Epub 2019 Jan 25.

DOI:10.1002/anie.201812081

PMID:30548747

Abstract

Photoelectrochemical water splitting is regarded as a promising approach to the production of hydrogen, and the development of efficient photoelectrodes is one aspect of realizing practical systems. In this work, transparent Ta N photoanodes were fabricated on n-type GaN/sapphire substrates to promote O evolution in tandem with a photocathode, to realize overall water splitting. Following the incorporation of an underlying GaN layer, a photocurrent of 6.3 mA cm was achieved at 1.23 V vs. a reversible hydrogen electrode. The transparency of Ta N to wavelengths longer than 600 nm allowed incoming solar light to be transmitted to a CuInSe (CIS), which absorbs up to 1100 nm. A stand-alone tandem cell with a serially-connected dual-CIS unit terminated with a Pt/Ni electrode was thus constructed for H evolution. This tandem cell exhibited a solar-to-hydrogen energy conversion efficiency greater than 7 % at the initial stage of the reaction.

摘要

光电化学水分解被认为是一种很有前景的制氢方法，而开发高效的光电极是实现实际系统的一个方面。在这项工作中，在n型GaN/蓝宝石衬底上制备了透明TaN光阳极，以与光阴极协同促进析氧反应，从而实现整体水分解。在加入底层GaN层后，相对于可逆氢电极，在1.23 V时实现了6.3 mA cm的光电流。TaN对波长大于600 nm的光具有透明性，使得入射太阳光能够透射至吸收波长可达1100 nm的CuInSe（CIS）。因此，构建了一个带有串联双CIS单元并以Pt/Ni电极终止的独立串联电池用于析氢反应。该串联电池在反应初始阶段表现出大于7%的太阳能到氢能的能量转换效率。

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用于高效析氧以推动串联电池发展的透明钽氮化物光阳极

Transparent Ta N Photoanodes for Efficient Oxygen Evolution toward the Development of Tandem Cells.

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