Photocatalytic materials have received great interest due to their capability for remediating environmental pollution especially water pollution. However, the scalable application of the current photocatalytic materials is still limited by their poor visible-light absorption and low separation efficiency of charge carriers. Here, we report in-situ sunlight-driven tuning of photo-induced electron-hole generation and separation rates in bismuth oxychlorobromide (BiOClBr) nanoflowers. It shows photochromic response under 10-minute natural sunlight irradiation changing color from white to black. The characterization reveals the presence of hydroxyl groups on the surface of the pristine BiOClBr nanoflowers and abundant oxygen vacancies for the sunlight-irradiated BiOClBr nanoflowers which narrow the bandgap and serve as electron trapping centers, thus effectively enhancing the generation and separation rates of electron-hole pairs. As a result, the sunlight-irradiated BiOClBr film demonstrates outstanding photocatalytic performance in water purification such as degrading Rhodamine B (RhB) dye under visible light irradiation with 2-fold higher than its pristine state.
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| http://dx.doi.org/10.1016/j.jcis.2022.01.019 | DOI Listing |
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