Affiliation:
1. Shanxi Key Laboratory of Gas Energy Efficient and Clean Utilization College of Chemical Engineering and Technology Taiyuan University of Technology Taiyuan Shanxi 030024 P. R. China
2. The University of New South Wales Sydney New South Wales 2052 Australia
Abstract
AbstractThe limited performance of BiVO4 for photoelectrochemical (PEC) water splitting is currently restricted to limited light absorption and rapid carrier recombination. Herein, molecular copper phthalocyanine (CuPc) and FeOOH co‐integrated BiVO4 photoanode are prepared by a simple dipping method and demonstrate significantly improved PEC water oxidation activities. The optimized BiVO4/CuPc/FeOOH photoanode attains a photocurrent density of 3.67 mA cm−2 at 1.23 VRHE and maintains the PEC performance without significant decay over a long period of time. In addition, significant increase of charge separation efficiency and decrease of charge transfer resistance of the BiVO4/CuPc/FeOOH photoanode also demonstrate that the hole–electron transfer and water oxidation reaction are promoted. It is found that CuPc has a similar structure to photosensitized chlorophyll, which can broaden the absorption range of BiVO4 in the visible region and improve the photo‐generated carriers transfer in the semiconductor. Whereas the FeOOH layer can rapidly transfer the photo‐generated holes into the electrolyte to participate in the water oxidation reaction as oxygen evolution cocatalyst. This work provides a feasible pathway to improve the PEC water splitting performance of BiVO4 by increasing light absorption and accelerating carrier transfer.
Funder
National Natural Science Foundation of China
Shanxi Scholarship Council of China
Australian Research Council
Subject
Industrial and Manufacturing Engineering,Mechanics of Materials,General Materials Science
Cited by
3 articles.
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