Heterostructured Co/Mo-sulfide catalyst enables unbiased solar water splitting by integration with perovskite solar cells
Wang, Meng 1Wan, Zhi 1Meng, Xinying Li, Zhihao Ding, Xiaogang Li, Pan Li, Can Wang, Jian-Gan Li, Zhen
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作者信息
1. Northwestern Polytech Univ
折叠
Abstract
Cost-effective and highly abundant oxygen evolution reaction (OER) electrocatalysts are of tremendous research interest in a variety of energy storage and conversion technology fields. However, the commercial applications are greatly impeded due to the sluggish OER kinetics. Herein, a heterostructured Co9S8@MoS2 electrocatalyst is demonstrated by elaborately implanting polyoxometalate of PMo12 into zeolitic imidazolate frameworks (ZIFs). The implantation of Mo species creates abundant Co9S8/MoS2 hetero-interfaces that could fine-tune the electrocatalytic activity of cobalt sites and thereof enhance the OER activity. Density functional theory (DFT) results prove synergetic effects between Co9S8 and MoS2 at the heterotinterfaces. The heterostructured Co9S8 @MoS2 catalyst achieves a low overpotential of 242 mV to reach 10 mA cm(-2) and the corresponding Tafel slope is as small as 58 mV dec-1. Based on the superior OER activity, an unbiased solar water splitting system is built by integrating perovskite solar cell with the two-electrode Co9S8 @MoS2//Pt/C, yielding a high solar-to-hydrogen (STH) conversion efficiency of 13.6%. This study demonstrates a new approach for cost-effective solar water splitting system toward green hydrogen production.
Key words
Heterostructured catalyst/Oxygen evolution reaction/Perovskite solar cell/Unbiased water splitting/Solar-to-hydrogen/HYDROGEN-PRODUCTION/EVOLUTION REACTION/OXYGEN/ELECTROCATALYSTS/EFFICIENCY/METAL/CO9S8/OXIDE/PHOTOVOLTAICS/NANOSHEETS
NSTL
Elsevier