Electrospun flexible self-standing Cu–Al2O3 fibrous membranes as Fenton catalysts for bisphenol A degradation | Zendy

Yan Wang | Zendy; Jiang Li | Zendy; Jianyang Sun | Zendy; Yanbin Wang | Zendy; Xu Zhao | Zendy

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Electrospun flexible self-standing Cu–Al₂O₃ fibrous membranes as Fenton catalysts for bisphenol A degradation

Author(s) -

Yan Wang,

Jiang Li,

Jianyang Sun,

Yanbin Wang,

Xu Zhao

Publication year - 2017

Publication title -

journal of materials chemistry a

Language(s) - English

Resource type - Journals

SCImago Journal Rank - 3.637

H-Index - 212

eISSN - 2050-7488

pISSN - 2050-7496

DOI - 10.1039/c7ta04386d

Subject(s) - catalysis , membrane , electrospinning , bisphenol a , degradation (telecommunications) , materials science , chemical engineering , copper , composite material , polymer , chemistry , metallurgy , organic chemistry , epoxy , computer science , telecommunications , biochemistry , engineering

Novel flexible self-standing Cu–Al2O3 fibrous membranes have been successfully synthesized via electrospinning technique, and they exhibited high Fenton catalytic activities under neutral pH values. The copper species are distributed uniformly in the fibers in the form of Cu+ and Cu2+, which was responsible for the Fenton catalytic performance. Over 87% of BPA was degraded within 180 min in the membrane reactor using the 1 wt% Cu–Al2O3 membrane at neutral pH values with H2O2 addition. The membranes can continuously degrade BPA by batch in the membrane reactor without any additional separation process. The excellent catalytic performance, good flexibility of the membranes, and the facile preparation process make the membranes good candidates for novel heterogeneous Fenton catalysts.

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