期刊
ENERGY TECHNOLOGY
卷 10, 期 1, 页码 -出版社
WILEY-V C H VERLAG GMBH
DOI: 10.1002/ente.202100457
关键词
cocatalysts; doping; oxygen vacancies; passivations; photoanodes
资金
- DST-FIST, India [SR/FST/PSII-009/2010]
- Ministry of Education, Singapore [RG15/16, RG16/18]
Ti doping and N-2 treatment increase charge carrier density, leading to enhanced photocurrent; TiO2 passivation boosts photovoltage, shifting onset potential cathodically by approximately 170 mV; FeOOH cocatalyst decoration improves reaction kinetics and overall water oxidation performance in photoassisted solar water splitting.
Designing an efficient photoanode is of great importance for photoassisted solar water splitting. Herein, a series of modifications to a nanorod structure hematite, to be used as anode for photoelectrochemical (PEC) water-splitting reactions is designed. Ti doping, oxygen vacancy formation by N-2 treatment, TiO2 passivation, and FeOOH cocatalyst decoration are explored for their roles and contributions to the improvement of the PEC water oxidation performance. It is found that Ti doping and N-2 treatment can greatly increase the charge carrier density, which has boosted the photocurrent. TiO2 passivation enhances the photovoltage, resulting in a cathodic shift in the onset potential (approximate to 170 mV with respect to prepassivation). Further, the FeOOH cocatalyst decoration improves the reaction kinetics, thereby improving the overall photoassisted water oxidation performance.
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