Download This Paper3d Structure of Lafe1-Δcoδo3@Carbon Cloths Composite Catalysts for Promoting Peroxymonosulfate Activation: Identification of Catalytic Mechanisms Towards Multiple Antibiotics
65 Pages Posted: 6 Dec 2024
Abstract
In this work, LaFe1-δCoδO3@carbon cloths (LFCO@CC) composite was synthesized via a hydrothermal method by partially substituting with Co in B-site of LaFeO3 and assembling in-situ on carbon cloth (CC), which was successfully employed for peroxymonosulfate (PMS) activation to eliminate antibiotics in water. B-site partially substitution could form a bimetallic synergistic system, which was favorable to the Fe2+/Fe3+ and Co2+/Co3+ cycling, and ROS production. Moreover, loading with 3D structures of CC facilitated to provided more active sites for LFCO with high density and good dispersion to improve electron transport process and the catalytic activity. The catalytic performance of LFCO@CC towards four types of antibiotics (isoquinoline alkaloids, nitrofurans, tetracyclines and quinolones) were different, with the degradation efficiencies of 92.8% (Berberine hydrochloride), 98.1% (Ornidazole), 97.7% (Tetracycline) and 85.1% (Levofloxacin), respectively. The corresponding contributions of active species were also different, non-radical pathway played a dominant role in BH and TC degradation, whereas the degradation of OMZ and LVF was performed by a combination of non-radical and radical mechanism. Among them, 1O2 and e- favored the degradation of BH, whereas the combination of SO4•-, O2•-, 1O2 and e- favored the degradation of OMZ. Furthermore, the degradation pathway and toxicity of BH were proposed and LFCO@CC also demonstrated excellent anionic salt resistance and reusability. This work facilitated a deeper understanding of the diverse degradation mechanisms of various antibiotics by novel perovskite-based catalysts.
Keywords: perovskite, bimetallic synergistic system, 3D structures of CC, various antibiotics, diverse degradation mechanisms
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