Robust dual-channel catalytic degradation relying on organic pollutants via Cu-C composites with directional electron harvest and classical radical species generation

[Display omitted] •An electrochemical displacement method enables the ultra-fast synthesis of CuC catalysts.•CuC catalysts exhibit a dual-channel degradation and cycle operation pathway.•The CuC catalysts exhibit high resistance to interference.•The CuC catalysts are sustainable, and offer enhanced...

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Published inChemical engineering journal (Lausanne, Switzerland : 1996) Vol. 512; p. 162062
Main Authors Cao, Mengbo, Gao, Ming, Wei, Xingyue, Zhang, Hanmin
Format Journal Article
LanguageEnglish
Published Elsevier B.V 15.05.2025
Subjects
Advanced oxidation processes
CuC catalysts
Dual-channel degradation
Energy-efficient synthesis
Wastewater treatment
Advanced oxidation processes
CuC catalysts
Energy-efficient synthesis
Dual-channel degradation
Wastewater treatment
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Abstract [Display omitted] •An electrochemical displacement method enables the ultra-fast synthesis of CuC catalysts.•CuC catalysts exhibit a dual-channel degradation and cycle operation pathway.•The CuC catalysts exhibit high resistance to interference.•The CuC catalysts are sustainable, and offer enhanced efficiency and material stability.•The packed-bed reactor demonstrates practical applicability for large-scale use. Advanced oxidation processes using metal composite catalysts are among the most promising strategies to address the escalating environmental pollution challenges. However, the conversion of metal-activated oxidants into deactivated high-valency metal states remains a significant hurdle in developing catalysts with both high activity and sustained reusability. This study presents an ultra-fast electron tuning preparation strategy, utilizing an energy-efficient and high-yield (72–96%) wet chemical electrochemical displacement method to transform low-performance commercial materials into high-activity Fenton-like nano-catalysts. Due to the framework restructuring, results, supported by XPS, electrochemical tests, density functional theory (DFT), and catalytic kinetics modeling, demonstrate that the synthesized CuC material offers a novel dual-channel catalytic pathway. Unlike traditional metal-based oxidants that generate free radicals through electron loss in a single-channel process (approx. 55%), CuC catalysts introduce a cyclic pollutant degradation mechanism by directly acquiring electrons from the pollutants (approx. 45%). This innovation enables dual-performance degradation of pollutants while promoting the stable operation of the material. The CuC catalyst powder and the constructed packed-bed reactor exhibit remarkable catalytic efficiency in degrading organic pollutants in the presence of various ions, in soil, and across a broad pH range. Additionally, catalytic treatment of water samples demonstrated a significant reduction in toxicity and high reusability, as confirmed by Chlorella and water lily cultivation data. These findings offer valuable insights into the industrial-scale fabrication of next-generation catalysts and the underlying trans-catalytic mechanisms that enhance their environmental applications.
AbstractList [Display omitted] •An electrochemical displacement method enables the ultra-fast synthesis of CuC catalysts.•CuC catalysts exhibit a dual-channel degradation and cycle operation pathway.•The CuC catalysts exhibit high resistance to interference.•The CuC catalysts are sustainable, and offer enhanced efficiency and material stability.•The packed-bed reactor demonstrates practical applicability for large-scale use. Advanced oxidation processes using metal composite catalysts are among the most promising strategies to address the escalating environmental pollution challenges. However, the conversion of metal-activated oxidants into deactivated high-valency metal states remains a significant hurdle in developing catalysts with both high activity and sustained reusability. This study presents an ultra-fast electron tuning preparation strategy, utilizing an energy-efficient and high-yield (72–96%) wet chemical electrochemical displacement method to transform low-performance commercial materials into high-activity Fenton-like nano-catalysts. Due to the framework restructuring, results, supported by XPS, electrochemical tests, density functional theory (DFT), and catalytic kinetics modeling, demonstrate that the synthesized CuC material offers a novel dual-channel catalytic pathway. Unlike traditional metal-based oxidants that generate free radicals through electron loss in a single-channel process (approx. 55%), CuC catalysts introduce a cyclic pollutant degradation mechanism by directly acquiring electrons from the pollutants (approx. 45%). This innovation enables dual-performance degradation of pollutants while promoting the stable operation of the material. The CuC catalyst powder and the constructed packed-bed reactor exhibit remarkable catalytic efficiency in degrading organic pollutants in the presence of various ions, in soil, and across a broad pH range. Additionally, catalytic treatment of water samples demonstrated a significant reduction in toxicity and high reusability, as confirmed by Chlorella and water lily cultivation data. These findings offer valuable insights into the industrial-scale fabrication of next-generation catalysts and the underlying trans-catalytic mechanisms that enhance their environmental applications.
ArticleNumber 162062
Author Zhang, Hanmin
Wei, Xingyue
Gao, Ming
Cao, Mengbo
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Keywords Advanced oxidation processes
CuC catalysts
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Snippet [Display omitted] •An electrochemical displacement method enables the ultra-fast synthesis of CuC catalysts.•CuC catalysts exhibit a dual-channel degradation...
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StartPage 162062
SubjectTerms Advanced oxidation processes
CuC catalysts
Dual-channel degradation
Energy-efficient synthesis
Wastewater treatment
Title Robust dual-channel catalytic degradation relying on organic pollutants via Cu-C composites with directional electron harvest and classical radical species generation
URI https://dx.doi.org/10.1016/j.cej.2025.162062
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