铜
溶解
化学
溶解有机碳
纳米颗粒
浸出(土壤学)
无机化学
有机质
离子
电子转移
化学工程
环境化学
铜毒性
过渡金属
光化学
配体(生物化学)
材料科学
作者
Haibin Li,Yina Guan,Chunguang Liu,Shuang Han,Yating Zhang,Lingshuai Kong,Jinhua Zhan
标识
DOI:10.1021/acs.est.5c15342
摘要
The interaction of copper nanoparticles (CuNPs) from anthropogenic and natural sources in the environment with dissolved organic matter (DOM) governs their occurrence, fate, and transportation. Here, we report that DOM can mediate CuNP transformation into atomically dispersed zerovalent copper single atoms (Cu0-SAs) at water/mineral interfaces. The mechanism proposes that the ortho-phenolic hydroxyl of DOM likely forms the five-membered ring structure with copper atoms on the CuNP surface, inducing inner-sphere electron transfer to weaken Cu-Cu bonds and enabling the liberation of Cu0-SAs and stabilization via Cu-O bonds on natural mineral surfaces, which diverges fundamentally from the conventional dissolution process. Cu0-SAs represent a paradoxical species that exhibit both relatively high environmental toxicity and stability, combining enhanced bactericidal activity, decreased copper ion leaching compared with parent CuNPs, and resistance to aggregation under reducing conditions. This study unveils an unreported CuNP transformation process in the environment, demonstrating Cu0-SAs as an emerging yet significant copper species. Our findings should be helpful for better understanding the fate, migration, and toxicity of copper in the ecosystem by identifying atomic-level copper intermediates.
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