Oxygen vacancy on hollow sphere CuFe2O4 as an efficient Fenton-like catalysis for organic pollutant degradation over a wide pH range

Oxygen vacancy on hollow sphere CuFe2O4 as an efficient Fenton-like catalysis for organic pollutant degradation over a wide pH range

[Display omitted] •Magnetic hollow sphere CuFe2O4 with oxygen vacancies (HS-CuFe2O4-σ) was designed for H2O2 activation.•HS-CuFe2O4-σ exhibited significantly higher activity for ciprofloxacin (CIP) degradation than CuFe2O4.•HS-CuFe2O4-σ maintained high catalytic activity in pH 6.5–9.0.•Oxygen vacanc...

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Bibliographic Details
Published in:Applied catalysis. B, Environmental Vol. 291; p. 120069
Main Authors: Ding, Rong-Rong, Li, Wen-Qiang, He, Chuan-Shu, Wang, Yi-Ran, Liu, Xiao-Cheng, Zhou, Guan-Nan, Mu, Yang
Format: Journal Article
Language:English
Published: Amsterdam Elsevier B.V 15-08-2021
Elsevier BV
Subjects:
Catalysis
Catalysts
Ciprofloxacin
Copper ferrite
Density functional theory
Environmental degradation
Exploitation
Fenton-like catalyst
Hollow structure
Hydrogen peroxide
Oxygen
Oxygen vacancies
pH effects
Pollutant removal
Pollutants
Synergistic effect
Vacancies
Water purification
Water treatment
Hollow structure
Oxygen vacancies
Fenton-like catalyst
Ciprofloxacin
Copper ferrite
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Summary:[Display omitted] •Magnetic hollow sphere CuFe2O4 with oxygen vacancies (HS-CuFe2O4-σ) was designed for H2O2 activation.•HS-CuFe2O4-σ exhibited significantly higher activity for ciprofloxacin (CIP) degradation than CuFe2O4.•HS-CuFe2O4-σ maintained high catalytic activity in pH 6.5–9.0.•Oxygen vacancies (OVs) provided additional active sites.•Enhanced CIP removal mechanisms with HS-CuFe2O4-σ was studied. Exploitation of highly active, stable and easily recyclable catalytic materials for heterogeneous Fenton-like processes has been enormously stimulated by the globally increased demands for water purification and guarantees of human health. Herein, a novel heterogeneous Fenton-like catalyst, hollow sphere CuFe2O4 with oxygen vacancies (HS-CuFe2O4-σ), was designed to efficiently activate H2O2 with good stability over a wide pH range. Results showed that the pollutant ciprofloxacin (CIP) could be completely removed within 30 min at pH 6.5–9.0. Compared with CuFe2O4, the rate constant of CIP degradation in neutral pH was enhanced by 20 times. Sufficient experimental exploration and density functional theory (DFT) calculations clearly demonstrated that the efficient catalytic performance of HS-CuFe2O4-σ was attributed to the synergistic effect of oxygen vacancies (OVs) and the nanoconfinement of the catalyst’s special hollow structure. This study lays a foundation for the rational design of catalysts that apply heterogeneous Fenton reactions to practical water purification.
ISSN:0926-3373
1873-3883
DOI:10.1016/j.apcatb.2021.120069