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Article Abstract
Developing highly efficient photocatalysts for water treatment with simultaneous clean energy production is an ideal strategy to solve environmental pollution and energy crises. Herein, a photocatalyst (SA-Mn-CN) featuring Mn single atoms (SAs) on a graphitic carbon nitride (g-CN) was designed to simultaneously degrade the emerging contaminants and generate hydrogen peroxide (HO). Density functional theory (DFT) calculations and Kelvin probe force microscopy (KPFM) results demonstrated that the introduction of Mn SAs induced a pronounced charge polarization, resulting in the formation of a surface electric field (SEF) with an intensity of 557.2 mV. Driven by the SEF, the pollutant served as a molecular modulator that improved the catalyst's band structure. Upon photoexcitation, electrons were efficiently transferred from pollutant to Mn sites for in-situ HO production, compensating for the energy consumption issue in wastewater treatment. Under visible light irradiation, the system achieved complete removal of BPA and nearly 80 % mineralization within 60 min, while simultaneously producing HO via a one-step two-electron O reduction process. This work provides a new idea for the design of efficient photocatalysts for energy conversion coupled with wastewater recycling.
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