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Simultaneously Efficient Light Absorption and Charge Separation in WO<sub>3</sub>/BiVO<sub>4</sub> Core/Shell Nanowire Photoanode for Photoelectrochemical Water Oxidation
713
Citations
54
References
2014
Year
EngineeringSynthetic PhotochemistryPhoto-electrochemical CellOptoelectronic DevicesChemistryPhotoelectrochemistryEfficient Light AbsorptionElectron ConductorPhotocatalysisCharge SeparationMaterials SciencePhotochemistryPhotonic MaterialsPhotoelectrochemical Water OxidationCore/shell NanowiresPhotoelectrocatalysisWater SplittingElectrochemistryBivo4-based Photoanodes
We report a scalably synthesized WO3/BiVO4 core/shell nanowire photoanode in which BiVO4 is the primary light-absorber and WO3 acts as an electron conductor. These core/shell nanowires achieve the highest product of light absorption and charge separation efficiencies among BiVO4-based photoanodes to date and, even without an added catalyst, produce a photocurrent of 3.1 mA/cm2 under simulated sunlight and an incident photon-to-current conversion efficiency of ∼60% at 300–450 nm, both at a potential of 1.23 V versus RHE.
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