Boosting the degradation of antibiotics <i>via</i> peroxymonosulfate activation with a Cu-based metal-organic framework.

Wu, Ying; Liang, Gang; Li, Wen-Bin; Zhong, Xiao-Feng; Zhang, Yang-Yang; Ye, Jia-Wen; Yang, Tao; Mo, Zong-Wen; Chen, Xiao-Ming

Boosting the degradation of antibiotics via peroxymonosulfate activation with a Cu-based metal-organic framework.

Wu, Ying; Liang, Gang; Li, Wen-Bin; Zhong, Xiao-Feng; Zhang, Yang-Yang; Ye, Jia-Wen; Yang, Tao; Mo, Zong-Wen; Chen, Xiao-Ming.

Afiliação

Wu Y; School of Environmental and Chemical Engineering, Jiangmen Key Laboratory of Synthetic Chemistry and Cleaner Production, Wuyi University Jiangmen Guangdong 529020 China wyuchemmzw@126.com leoyanghit@126.com.
Liang G; School of Environmental and Chemical Engineering, Jiangmen Key Laboratory of Synthetic Chemistry and Cleaner Production, Wuyi University Jiangmen Guangdong 529020 China wyuchemmzw@126.com leoyanghit@126.com.
Li WB; School of Environmental and Chemical Engineering, Jiangmen Key Laboratory of Synthetic Chemistry and Cleaner Production, Wuyi University Jiangmen Guangdong 529020 China wyuchemmzw@126.com leoyanghit@126.com.
Zhong XF; School of Environmental and Chemical Engineering, Jiangmen Key Laboratory of Synthetic Chemistry and Cleaner Production, Wuyi University Jiangmen Guangdong 529020 China wyuchemmzw@126.com leoyanghit@126.com.
Zhang YY; School of Environmental and Chemical Engineering, Jiangmen Key Laboratory of Synthetic Chemistry and Cleaner Production, Wuyi University Jiangmen Guangdong 529020 China wyuchemmzw@126.com leoyanghit@126.com.
Ye JW; School of Environmental and Chemical Engineering, Jiangmen Key Laboratory of Synthetic Chemistry and Cleaner Production, Wuyi University Jiangmen Guangdong 529020 China wyuchemmzw@126.com leoyanghit@126.com.
Yang T; School of Environmental and Chemical Engineering, Jiangmen Key Laboratory of Synthetic Chemistry and Cleaner Production, Wuyi University Jiangmen Guangdong 529020 China wyuchemmzw@126.com leoyanghit@126.com.
Mo ZW; School of Environmental and Chemical Engineering, Jiangmen Key Laboratory of Synthetic Chemistry and Cleaner Production, Wuyi University Jiangmen Guangdong 529020 China wyuchemmzw@126.com leoyanghit@126.com.
Chen XM; MOE Key Laboratory of Bioinorganic and Synthetic Chemistry, GBRCE for Functional Molecular Engineering, School of Chemistry, IGCME, Sun Yat-Sen University Guangzhou 510275 China.

Chem Sci ; 15(25): 9733-9741, 2024 Jun 26.

Article em En | MEDLINE | ID: mdl-38939145

ABSTRACT

ABSTRACT

Highly efficient degradation of antibiotics is a huge challenge due to the extremely stable molecules and the potential for biological resistance. However, conventional degradation methods are limited to lower degradation rate, higher energy consumption and secondary pollution. Herein, we report a new Cu-based metal-organic framework (MOF), featuring classical planar trinuclear [Cu3(µ3-O)]4+ clusters within the pores. The presence of the rich open metal sites and the large pore ratio, as well as the high catalytic activity of Cu2+ ions, are conducive to boosting the degradation of various antibiotics (>95%) under the activation of peroxymonosulfate. Remarkably, this is the first MOF to achieve such exceptional catalytic performance under neutral and even alkaline conditions, which exceeds those of most reported materials. Mechanism investigation demonstrates that multiple active species were produced and promoted the degradation synergistically during the advanced oxidation processes.

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Texto completo: 1 Base de dados: MEDLINE Idioma: En Ano de publicação: 2024 Tipo de documento: Article

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Texto completo: 1 Base de dados: MEDLINE Idioma: En Ano de publicação: 2024 Tipo de documento: Article