文章基本信息

标题：NiMoV and NiO-based catalysts for efficient solar-driven water splitting using thermally integrated photovoltaics in a scalable approach
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作者：İlknur Bayrak Pehlivan ; Johan Oscarsson ; Zhen Qiu 等
期刊名称：iScience
印刷版ISSN：2589-0042
出版年度：2021
卷号：24
期号：1
页码：1-15
DOI：10.1016/j.isci.2020.101910
语种：English
出版社：Elsevier
摘要：SummaryIn this work, a trimetallic NiMoV catalyst is developed for the hydrogen evolution reaction and characterized with respect to structure, valence, and elemental distribution. The overpotential to drive a 10 mA cm−2current density is lowered from 94 to 78 mV versus reversible hydrogen electrode by introducing V into NiMo. A scalable stand-alone system for solar-driven water splitting was examined for a laboratory-scale device with 1.6 cm2photovoltaic (PV) module area to an up-scaled device with 100 cm2area. The NiMoV cathodic catalyst is combined with a NiO anode in alkaline electrolyzer unit thermally connected to synthesized (Ag,Cu) (In,Ga)Se2((A)CIGS) PV modules. Performance of 3- and 4-cell interconnected PV modules, electrolyzer, and hydrogen production of the PV electrolyzer are examined between 25°C and 50°C. The PV-electrolysis device having a 4-cell (A)CIGS under 100 mW cm−2illumination and NiMoV-NiO electrolyzer shows 9.1% maximum and 8.5% averaged efficiency for 100 h operation.Graphical AbstractDisplay OmittedHighlights•A new catalyst NiMoV is reported for the hydrogen evolution reaction•A scalable thermally integrated PV-electrolyzer is designed for solar water splitting•Interconnected PV-electrolyzer modules provideSTHefficiency between 8 and 11%•An upscaled CIGS-NiMoV-NiO device provides 8.5%STHfor 100 h operationChemistry; Electrochemistry; Engineering; Materials Science; Energy Materials