Bi metal prevents the deactivation of oxygen vacancies in Bi2O2CO3 for stable and efficient photocatalytic NO abatement

[Display omitted] •Metal Bi decorated defective Bi2O2CO3 photocatalysts were fabricated.•The Bi metal could prevent the inactivation of oxygen vacancies in Bi2O2CO3.•The photocatalytic NO abatement on Bi2O2CO3 can be promoted by Bi metal.•Bi decorated defective Bi2O2CO3 displayed enhanced photocatal...

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Published in:Applied catalysis. B, Environmental Environmental, 2020-05, Vol.264, p.118545, Article 118545
Main Authors: Chen, Peng, Liu, Hongjing, Sun, Yanjuan, Li, Jieyuan, Cui, Wen, Wang, Li’ao, Zhang, Wendong, Yuan, Xiaoya, Wang, Zhiming, Zhang, Yuxin, Dong, Fan
Format: Article
Language:English
Subjects:
Air pollution
Bismuth metal nanoparticles
Catalytic activity
Deactivation
Density functional theory
First principles
Gold
Intermediates
Metals
Nanoparticles
Nitrogen dioxide
Oxidation
Oxygen
Oxygen vacancies
Photocatalysis
Photocatalysis mechanism
Pollutants
Purification
Radicals
Stability
Vacancies
Visible light photocatalysis
Water chemistry
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Summary:[Display omitted] •Metal Bi decorated defective Bi2O2CO3 photocatalysts were fabricated.•The Bi metal could prevent the inactivation of oxygen vacancies in Bi2O2CO3.•The photocatalytic NO abatement on Bi2O2CO3 can be promoted by Bi metal.•Bi decorated defective Bi2O2CO3 displayed enhanced photocatalytic stability.•The photocatalysis mechanism was revealed with in situ DRIFT and DFT. Surface oxygen vacancies can normally enhance photocatalytic activity, but also easily suffers from instability and deactivation in continuous photocatalytic purification of air pollutants. Therefore, it is necessary to develop an effective method to improve the photocatalytic stability of oxygen vacancies. In this work, Bi metal nanoparticle decorated Bi2O2CO3 nanosheets with oxygen vacancy (Bi@OV-BOC) are fabricated and exhibited higher photocatalytic activity and stability than Bi2O2CO3 with oxygen vacancy (OV-BOC). The co-effect of Bi metal nanoparticles and oxygen vacancies could also effectively inhibit the formation of toxic intermediates (NO2) and promote it to form final products (NO3−). First-principles density functional theory (DFT) calculation and experimental results suggested that the co-effects of Bi metal nanoparticles and oxygen vacancies (OVs) can largely promote the separation and transfer of photo-generated electron and hole to generate abundant active radicals. More importantly, the Bi metal nanoparticles could be as the active site to activate O2 and H2O molecules so that the O2 and H2O molecules would not fill into oxygen vacancies, resulting in preventing the deactivation of oxygen vacancies. The sufficient active radicals can realize complete oxidation of intermediates into final products and avoid toxic intermediates (e.g. NO2) accumulation. This study reveals the co-effects of Bi and OVs in defective photocatalyst, and also provides fundamental guidance for maintaining the active role of oxygen vacancies.
ISSN:0926-3373
1873-3883
DOI:10.1016/j.apcatb.2019.118545