4.8 Article

Efficient full dechlorination of chlorinated ethenes on single enzyme-like Co-N4 sites in nitrogen-doped carbons

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APPLIED CATALYSIS B-ENVIRONMENTAL
卷 328, 期 -, 页码 -

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ELSEVIER
DOI: 10.1016/j.apcatb.2023.122459

关键词

Reductive dechlorination; Trichloroethene; Dehalogenase; Single-atom catalyst; Enzyme mimics

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By embedding enzyme-like Co-N4 sites in a nitrogen-doped carbon support, we developed a Co-NC catalyst that combines the advantages of abiotic and biological dechlorination strategies. Co-NC exhibited excellent reactivity and stability for catalytic dechlorination of chlorinated ethenes. It could transform up to 94.8% of trichloroethene directly to acetylene without toxic intermediates and utilize electrons from dissolved Fe(II), making it a sustainable remediation strategy.
Chlorinated ethenes are ubiquitous contaminants in groundwater. Here, by embedment of enzyme-like Co-N4 sites in the nitrogen-doped carbon support, we prepared a Co-NC catalyst to combine the advantages of abiotic and biological dechlorination strategies. Co-NC exhibited superior reactivity and stability for catalytic dechlorination of chlorinated ethenes under various conditions. Up to 94.8% of trichloroethene could be transformed directly to acetylene without toxic intermediates. Moreover, Co-NC could utilize electrons from dissolved Fe(II), which is low-cost and a common component in the groundwater, making the Co-NC-based strategies sustainable for the remediation. Even with such a weak reductant, acetylene was still the dominant product. Those catalytic properties originate from the synergism of the nitrogen-doped carbons and the highly active Co sites. This synergism favors a mechanism where the toxic intermediates are bound on Co sites until the full dechlorination, due to the excellent electron-storage ability and the electronic delocalization characteristic of nitrogen-doped carbons.

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