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Enhancing the photocatalytic hydrogen production activity of BiVO4 [110] facets using oxygen vacancies.


ABSTRACT: The activity of the hydrogen evolution reaction (HER) during photoelectrochemical (PEC) water-splitting is limited when using BiVO4 with an exposed [110] facet because the conduction band minimum is below the H+/H2O potential. Here, we enhance the photocatalytic hydrogen production activity through introducing an oxygen vacancy. Our first-principles calculations show that the oxygen vacancy can tune the band edge positions of the [110] facet, originating from an induced internal electric field related to geometry distortion and charge rearrangement. Furthermore, the induced electric field favors photogenerated electron-hole separation and the enhancement of atomic activity. More importantly, oxygen-vacancy-induced electronic states can increase the probability of photogenerated electron transitions, thus improving optical absorption. This study indicates that oxygen-defect engineering is an effective method for improving the photocatalytic activity when using PEC technology.

SUBMITTER: Pan J 

PROVIDER: S-EPMC8978636 | biostudies-literature | 2021 Dec

REPOSITORIES: biostudies-literature

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Enhancing the photocatalytic hydrogen production activity of BiVO<sub>4</sub> [110] facets using oxygen vacancies.

Pan Jing J   Ma Xiaoxue X   Zhang Wannian W   Hu Jingguo J  

RSC advances 20211222 1


The activity of the hydrogen evolution reaction (HER) during photoelectrochemical (PEC) water-splitting is limited when using BiVO<sub>4</sub> with an exposed [110] facet because the conduction band minimum is below the H<sup>+</sup>/H<sub>2</sub>O potential. Here, we enhance the photocatalytic hydrogen production activity through introducing an oxygen vacancy. Our first-principles calculations show that the oxygen vacancy can tune the band edge positions of the [110] facet, originating from an  ...[more]

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