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Exploring the mechanism of ZrO2 structure features on H2O2 activation in Zr–Fe bimetallic catalyst

APPLIED CATALYSIS B-ENVIRONMENTAL [2021]
Yue Yin, Ruolin Lv, Xiaoyang Li, Lu Lv, Weiming Zhang
ABSTRACT

Bimetallic Fenton catalyst has attracted widespread attention in refractory organics removal. Herein, we firstly investigated the influence of ZrO 2 structure features on H 2 O 2 activation in Zr-Fe bimetallic catalyst. The results show that the heterojunction structure will be formed after high temperature calcination , which makes the ability of Zr-Fe bimetallic catalyst to activate H 2 O 2 for bisphenol A degradation is 3.1 times higher than that of α-Fe 2 O 3 without Zr doping. Through characterization and density functional theory, it was identified that compared to (1 1 0) interface, the adsorption energy of H 2 O 2 on iron sites at (1 1 0)-(1 0 0) interface reduced by 1.27 kJ mol −1 , while the Fe–O bond length in the stable configuration of Fe-OOH increased by 0.16 Å, which was beneficial to the association and dissociation of H 2 O 2 on iron sites. Besides, the surface -OH of amorphous ZrO 2 in Zr-Fe bimetallic catalyst synthesized under low temperature conditions could promote HO 2 • /O 2 •- formation through the surface electron transfer, accelerating the Fe(III) reduction. In conclusion, this study reveals the influence of environment-friendly ZrO 2 structure features on H 2 O 2 activation, proposes a new insight into strengthening the synergistic effect between bimetals, and provides a reference for the structural optimization of bimetallic catalysts.

MATERIALS

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