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Enhanced Z-scheme water splitting at atmospheric pressure with suppression of reverse reactions using Zr-doped BaTaO2N as hydrogen evolution photocatalyst

Wenpeng Li, Huihui Li, Yiwen Ma, Jiadong Xiao, Daling Lu, Takashi Hisatomi, Kazunari Domen

2023Journal of Catalysis16 citationsDOIOpen Access PDF

Abstract

The present work demonstrates a Z-scheme overall water splitting (ZOWS) system for the photocatalytic production of H2 capable of operating under Ar at near-atmospheric pressure using a narrow-bandgap Zr-doped BaTaO2N photocatalyst. Reverse reactions are suppressed in this system as a consequence of a surface modification of the Pt-loaded, Zr-doped BaTaO2N (Pt/BaTaO2N:Zr) photocatalyst with Cr2O3. The introduction of a Cr2O3 shell was found to effectively inhibit the reduction of [Fe(CN)6]3- that otherwise competes with the H2 evolution reaction, resulting in an improved apparent quantum yield of 1.1 % at 420 nm. By combining this H2 evolution photocatalyst with an O2 evolution photocatalyst based on BiVO4, ZOWS was achieved at near-atmospheric pressure with a solar-to-hydrogen energy conversion efficiency of 0.08 %. This work demonstrates the importance of suppressing reverse reactions during ZOWS at atmospheric pressure and provides valuable guidance for the design and construction of practical green H2 production systems.

Topics & Concepts

ChemistryPhotocatalysisWater splittingCatalysisAtmospheric pressureDopingHydrogenPhotocatalytic water splittingPhotochemistryOptoelectronicsMeteorologyOrganic chemistryPhysicsAdvanced Photocatalysis TechniquesPerovskite Materials and ApplicationsCopper-based nanomaterials and applications
Enhanced Z-scheme water splitting at atmospheric pressure with suppression of reverse reactions using Zr-doped BaTaO2N as hydrogen evolution photocatalyst | Litcius