V‐/O‐Doping to Endow Ag2S‐based Bimetal Oxysulfide with Sulfur Vacancies and Heterovalent States for Rapid Reduction of Organic and Cr(VI) Pollutants in the Dark

双金属 硫黄 兴奋剂 污染物 环境化学 材料科学 化学 无机化学 冶金 光电子学 有机化学
作者
Xinru Wu,Pengkun Zhang,Benjamin Kunkadma Insua,Baoqian Yang,Dong–Hau Kuo,Dongfang Lu,Mengistu Tadesse Mosisa,Jinguo Lin,Xiaoyun Chen
出处
期刊:Advanced sustainable systems [Wiley]
卷期号:9 (3) 被引量:6
标识
DOI:10.1002/adsu.202400771
摘要

Abstract A novel AgVOS oxysulfide catalyst for rapid catalytic reduction of toxic organic substances and Cr(VI) under dark is synthesized by a facile method. With the V/O co‐doping, the doped Ag 2 S catalyst has the effectively regulated electron transfer performance, the hydrazine‐driven V 5+ ‐to‐V 4+ reduction to disturb charge equilibrium, and the formed sulfur vacancy balanced by oxygen doping to maintain charge equilibrium. The formed sulfur vacancy acts as the active site for electrophilic nucleophilic reaction, while the orbital hybridization of O 2p and S 3p stabilizes the valence state of S 2− . A suitable ratio of n (V 4+ /V 5+ ) is regulated during the hydrazine‐driven synthesis to facilitate the electron transfer and enhance the V 5+ ‐to‐V 4+ reduction reaction. V/O co‐doped AgVOS‐3 prepared by a suitable hydrazine content exhibits super catalytic reduction performance of organic 4‐NP (4‐nitrophenol), MB (methyl blue), MO (methyl orange), and RhB (Rhodamine B, 20 ppm, 100 mL) dyes, which are completely reduced within 8, 8, 10, and 8 min, respectively. In comparison, Cr 6+ (50 ppm, 100 mL) is also completely reduced within 6 min by AgVOS‐3, indicating its good catalytic reduction activity for organic and inorganic mixture pollutants. Furthermore, AgVOS‐3 has good stability after cyclic tests to maintain a reduction efficiency of 96.5%. Therefore, the AgVOS catalyst shows a promising application for industrial wastewater treatment.
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