Opposite photocatalytic oxidation behaviors of BiOCl and TiO2: Direct hole transfer vs. indirect OH oxidation

[Display omitted] •An opposite photocatalytic oxidation behaviors of BiOCl and TiO2 was observed.•BiOCl tends to decomposite perhalocarboxylate by hole transfer.•TiO2 preferred to oxidize organic pollutants mediated by hydroxyl radical.•Different photocatalytic behaviors are attributed to the surfac...

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Bibliographic Details
Published in:Applied catalysis. B, Environmental Environmental, 2019-02, Vol.241, p.514-520
Main Authors: Zhong, Junbo, Zhao, Yukun, Ding, Liyong, Ji, Hongwei, Ma, Wanhong, Chen, Chuncheng, Zhao, Jincai
Format: Article
Language:English
Subjects:
BiOCl
Hole transfer
Perhalocarboxylate acids
Photocatalytic degradation
TiO2
Water activation
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Summary:[Display omitted] •An opposite photocatalytic oxidation behaviors of BiOCl and TiO2 was observed.•BiOCl tends to decomposite perhalocarboxylate by hole transfer.•TiO2 preferred to oxidize organic pollutants mediated by hydroxyl radical.•Different photocatalytic behaviors are attributed to the surface site of reactant adsorption and hole trapping. Although all the semiconductor-based photocatalysis is initiated by photoinduced conduction band electron and valence band hole, the reaction pathway and activity of the electron and hole would be largely dependent on the type of the photocatalyst. It is essential to distinguish and understand the photocatalyst-dependence of a specific reaction. In the present study, we compared the photocatalytic behaviors of BiOCl and TiO2 for the degradation of different pollutants including perfluorooctanoic acid (PFOA), chloroacetic acids and benzoic acid. We found that the decompositions of perhalocarboxylate acids (PHCAs) such as PFOA and trichloroacetic acid (TCA) were much rapider over BiOCl than on the TiO2 (commercial P25). The surface-area- normalized rate constants for the oxidation of TCA have five orders of magnitude of difference between these two systems. By contrast, the degradation rates of OH-sensitive organic pollutants such as dichloroacetic acid, monochloroacetic acid and benzoic acid were much higher on the TiO2. Moreover, much more meta-substituted hydroxylated intermediate was observed during the photocatalytic oxidation of benzoic acid on BiOCl. In addition, PFOA and TCA were degraded efficiently in the BiOCl system even in the presence of other labile organic compounds (such as acetic acid). All the experimental results definitely indicate that BiOCl photocatalyst prefers to directly oxidize the PHCAs and benzoic acid by the hole transfer, while TiO2 tends to oxidize the solvent water molecule to OH radical. The mechanism underlying on the different activity of BiOCl and TiO2 are further discussed.
ISSN:0926-3373
1873-3883
DOI:10.1016/j.apcatb.2018.09.058