Issue 14, 2021

Defect-boosted molybdenite-based co-catalytic Fenton reaction

Abstract

Introducing a metal sulfide-based co-catalyst is an effective strategy to substantially enhance the Fenton reaction. Manipulation of the co-catalyst's structure is expected to further boost the co-catalytic capability. Herein, we demonstrate that the intrinsic high-defect surface of a natural molybdenite material contributes to the enhancement of catalytic performance of the Fenton reaction. The defective surface not only exposes more Mo(IV) active sites for rapid Fe3+/Fe2+ conversion but also promotes cooperation with H2O2 molecules for reactivation. This synergistic effect brings about enhanced reaction kinetics and boosts the decomposition of H2O2, which causes the molybdenite co-catalytic system to display an efficient removal rate for various organic pollutants. This work unveils the defects’ contribution for catalyzing the Fenton reaction and sheds light on the potential large-scale water treatment use cases for abundant high-defect molybdenite materials.

Graphical abstract: Defect-boosted molybdenite-based co-catalytic Fenton reaction

Supplementary files

Article information

Article type
Research Article
Submitted
15 mar 2021
Accepted
23 may 2021
First published
31 may 2021

Inorg. Chem. Front., 2021,8, 3440-3449

Defect-boosted molybdenite-based co-catalytic Fenton reaction

F. Jiang, L. Zhang, T. Yue, H. Tang, L. Wang, W. Sun, C. Zhang and J. Chen, Inorg. Chem. Front., 2021, 8, 3440 DOI: 10.1039/D1QI00344E

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