1. High transmittance BiVO4 thin-film photoanodes by reactive magnetron sputtering for a photovoltaic-photoelectrocatalysis water splitting system.
- Author
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Lu, Qiuhang, Ding, Lingling, Li, Jinghan, Wang, Nan, Ji, Miaoxia, Wang, Ni, and Chang, Kun
- Subjects
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MAGNETRON sputtering , *REACTIVE sputtering , *DYE-sensitized solar cells , *THIN films , *STANDARD hydrogen electrode , *SOLAR panels , *COMPOSITE membranes (Chemistry) - Abstract
As the system with the highest solar hydrogen conversion efficiency, the further improvement of photovoltaic-photoelectrocatalysis (PV-PEC) efficiency is dependent on the light transmittance, activity and stability of the photoanode. Here, a highly permeable BiVO 4 thin film was fabricated through controlled magnetron sputtering. The thickness of the thin film was merely 345 nm, while its transmittance in the visible light range reached as high as 70%. Moreover, large-scale production of such films could be achieved. By incorporating NiFeO x oxygen extraction cocatalyst, under AM 1.5G illumination, the photocurrent density at 1.23 V on reversible hydrogen electrode (RHE) increased to 4.2 mA cm−2 and the incident photon-current conversion efficiency reached 70%. A PV-PEC system was designed to efficiently harness sunlight by integrating the photoanode with a solar photovoltaic panel. Upon connection with the solar photovoltaic panel (with an efficiency of only 7%), spontaneous water decomposition could be achieved, resulting in a solar-to-hydrogen conversion efficiency (η STH) of 4.2% for the series system. This study contributes to the realization of cost-effective and highly efficient PV-PEC hydrogen production. The PV-PEC series system with BiVO 4 thin film photoanode prepared by magnetron sputtering method improves the overall utilization rate of sunlight and realizes spontaneous water decomposition. [Display omitted] • BiVO 4 films with large area and high transmittance can be prepared by low rate controlled magnetron sputtering. • The PEC performance of films was improved by optimizing the magnetron sputtering process and supporting catalyst. • Photovoltaic and photoanode in PV-PEC cells can be irradiated in series to improve the utilization rate of sunlight. [ABSTRACT FROM AUTHOR]
- Published
- 2024
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