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Microplastic degradation by hydroxy-rich bismuth oxychloride

Journal of Hazardous Materials 2020 317 citations ? Citation count from OpenAlex, updated daily. May differ slightly from the publisher's own count. Score: 50 ? 0–100 AI score estimating relevance to the microplastics field. Papers below 30 are filtered from public browse.

Zhenhua Yan, Zhenhua Yan, Runren Jiang, Runren Jiang, Zhenhua Yan, Zhenhua Yan, Zhenhua Yan, Zhenhua Yan, Zhenhua Yan, Runren Jiang, Zhenhua Yan, Runren Jiang, Jianchao Liu, Yonghua Wang, Zhenhua Yan, Yonghua Wang, Jianchao Liu, Zhenhua Yan, Jianchao Liu, Zhenhua Yan, Zhenhua Yan, G. R. Lu Zhenhua Yan, G. R. Lu Zhenhua Yan, Runren Jiang, Zhenhua Yan, Zhenhua Yan, Zhenhua Yan, Zhenhua Yan, Zhenhua Yan, Donghai Wu, Runren Jiang, Runren Jiang, Runren Jiang, Zhenhua Yan, Yonghua Wang, Zhenhua Yan, Jianchao Liu, Runren Jiang, Runren Jiang, Runren Jiang, Zhenhua Yan, Runren Jiang, Zhenhua Yan, Zhenhua Yan, Jianchao Liu, Runren Jiang, Jianchao Liu, Zhenhua Yan, Zhenhua Yan, Runren Jiang, Runren Jiang, Donghai Wu, Donghai Wu, Donghai Wu, Zhenhua Yan, Zhenhua Yan, Zhenhua Yan, Zhenhua Yan, Zhenhua Yan, Zhenhua Yan, Yonghua Wang, G. R. Lu G. R. Lu Yonghua Wang, Jianchao Liu, Yonghua Wang, Zhenhua Yan, G. R. Lu G. R. Lu

Summary

A novel hydroxy-rich bismuth oxychloride photocatalyst (BiOCl-X) degraded microplastics at a rate 24 times higher than standard BiOCl nanosheets under light irradiation, with surface hydroxyl groups identified as the key structural feature that boosts hydroxyl radical production for plastic oxidation.

Microplastics, as a class of widely dispersed persistent pollutants, the main reactive oxygen species is far from clarified in their photocatalytic degradation. In this study, a novel hydroxy-rich ultrathin BiOCl (BiOCl-X) was prepared at room temperature. BiOCl-X shows a strong potential for photocatalytic degradation of microplastics, and the mass loss of plastics is 24 times higher than that of the BiOCl nanosheets. More importantly, we explored the photocatalytic mechanism through electron paramagnetic resonance and capture experiments, and found that the surface hydroxyl of BiOCl can effectively enhance the production of hydroxyl radicals, resulting in boosting degradation performance. Here, we provide new insights that photocatalytic degradation of microplastic is dependent on surface hydroxyl groups. This work could be useful for controllable designs of hydroxy-rich photocatalysts for applications in microplastic degradation.

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