Rational Regulation of Co–N–C Coordination for High-Efficiency Generation of 1O₂ toward Nearly 100% Selective Degradation of Organic Pollutants

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Abstract

Single oxygen-based advanced oxidation processes (1O₂-AOPs) exhibit great prospects in selective degradation of organic pollutants. However, efficient production of 1O₂ via tailored design of catalysts to achieve selective oxidation of contaminants remains challenging. Herein, we develop a simple strategy to regulate the components and coordination of Co-N-C catalysts at the atomic level by adjusting the Zn/Co ratio of bimetallic zeolitic imidazolate frameworks (Zn_xCo₁-ZIFs). Zn₄Co₁-C demonstrates 98% selective removal of phenol in the mixed phenol/benzoic acid (phenol/BA) solutions. Density functional theory calculations and experiments reveal that more active CoN₄ sites are generated in Zn₄Co₁-C, which are beneficial to peroxymonosulfate activation to generate 1O₂. Furthermore, the correlation between the origin of selectivity and well-defined catalysts is systematically investigated by the electron paramagnetic resonance test and quenching experiments. This work may provide novel insights into selective removal of target pollutants in a complicated water matrix.

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