光催化
材料科学
碳纤维
苯
光化学
吸附
双酚A
紫外线
亲核细胞
化学工程
电泳剂
碳量子点
氧化还原
降级(电信)
异质结
电子转移
地下水修复
磺酸
化学
惰性
量子点
复合数
键裂
无机化学
超快激光光谱学
光谱学
离子液体
环境修复
作者
Fuyu Liu,Honglei Li,Zixiang Gao,Qiang Song,Patrick J. Cullen,Ziying Nie,Ye Hong,Yuxuan Zhang,Shilin Yao,Cheng Gu,Fanran Meng,Zhihong Zuo,R Q Liu,Z. N. Chen,Dongling Ma,Yongguang Yin,Yong Cai,Xiaoguang Duan,Qingzhe Zhang
出处
期刊:
日期:2026-03-02
卷期号:4 (3): 334-347
被引量:5
标识
DOI:10.1038/s44221-026-00590-4
摘要
Abstract Per- and polyfluoroalkyl substances (PFAS) resist most remediation technologies because of their exceptionally inert carbon–fluorine bonds. Here we report a visible-light Z-scheme photocatalyst composed of CuInS 2 quantum dots anchored on BiOCl nanoplates (CuInS 2 /BiOCl) that overcomes this barrier. Femtosecond transient absorption, steady-state spectroscopy and theoretical calculations show that an internal electric field steers photo-generated electrons (e − ) migrating to CuInS 2 and holes (h + ) to BiOCl, maximizing their redox potentials for simultaneous carbon–fluorine scission and carbon chain breakage, respectively. Computations revealed that benzene sulfonic acid and carbon fluoride groups on sodium p -perfluorous nonenoxybenzenesulfonate (OBS) are susceptible to electrophilic attack by h + and nucleophilic attack by e − , respectively. Under ultraviolet irradiation, the heterojunction achieves 75.8% defluorination and 76.8% total organic carbon removal of OBS within 8 h, with universal applicability for efficient degradation of 17 representative PFAS mixtures. Continuous-flow tests driven by natural sunlight achieve >96% OBS removal in 10 h, confirming system scalability. Toxicity assays indicate negligible hazardous effects of the residual. The work reports a sunlight-powered and flow-compatible photocatalytic platform for sustained PFAS decontamination, opening a sustainable route for ‘forever chemical’ abatement in water.
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