污染物
催化作用
环境修复
苯酚
水处理
废水
化学
污水处理
工业废水处理
环境科学
废物管理
环境化学
水溶液中的金属离子
金属
地下水修复
电子转移
相(物质)
离子交换
环境工程
水污染物
限制
作者
Y X Zhang,Lekang Cui,Yaqin Shi,Yan Zhao,Cong Yuan,Chengcheng Tian,Jiazhen Cao,Mingyang Xing
摘要
ABSTRACT Decentralized water treatment is constrained by high chemical demand and rapid catalyst deactivation, limiting the low‐carbon remediation of waters containing heavy metals and organic micropollutants. Herein, we report a phase‐transition‐driven self‐catalytic strategy that converts metal pollutants in situ into active catalysts for integrated purification and valorization. In a representative Ni 2+ /phenol system, peroxymonosulfate (PMS) shifts the Ni 2+ ⇌ Ni(OH) 2 equilibrium toward NiOOH nanoparticle formation, which rapidly induces phenol polymerization and co‐precipitation with residual Ni(OH) 2 . Consequently, phenol is completely removed, while Ni 2+ decreases from 28 to 0.08 mg L −1 with ultralow PMS consumption. Mechanistic studies identify NiOOH as the reactive phase that oxidizes phenol to phenoxy radicals via proton‐coupled electron transfer and proton transfer–electron transfer pathways. This strategy is highly effective for treating industrial phenolic wastewater and offers a modular platform adaptable to various metal ions (e.g., Co 2+ , Cu 2+ ) and oxidants (e.g., NaClO, Peroxydisulfate). Combined with effective products recovery, it offers substantial economic and environmental advantages over existing methods. This work recasts pollutants from treatment targets into treatment agents, offering a fresh, and scalable route to sustainable water remediation.
科研通智能强力驱动
Strongly Powered by AbleSci AI