Dual engineering of oxygen vacancies and cation substitution: Insights into electronic density redistribution for ultrahigh peroxymonosulfate activation

[Display omitted] •A facile surfactant-free cyanogel-NaBH4 method is synthesized transition metal oxides.•The fabricated Fe-Co-OV exhibits exceptional intrinsic activity and PMS utilization.•EPR evidence shows ●OH and SO4●- drive pollutant degradation in Fe-Co-OV/PMS system.•DFT proves that O-vacanc...

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Published in	Separation and purification technology Vol. 378; p. 134509
Main Authors	Zhang, Zepeng, Ouyang, Yixin, Zhou, Jiawei, Liu, Zifan, Hu, Min, Zhang, Qifeng, Li, Xiuwen, Zhang, Lan, Hang, Xiaoshuai, Li, Zijian
Format	Journal Article
Language	English
Published	Elsevier B.V 22.12.2025
Subjects	Cation substitution Cobalt-based catalyst Interfacial behaviors Oxygen vacancy Peroxymonsulfate activation Water decontamination Cation substitution Peroxymonsulfate activation Water decontamination Interfacial behaviors Cobalt-based catalyst Oxygen vacancy
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Abstract	[Display omitted] •A facile surfactant-free cyanogel-NaBH4 method is synthesized transition metal oxides.•The fabricated Fe-Co-OV exhibits exceptional intrinsic activity and PMS utilization.•EPR evidence shows ●OH and SO4●- drive pollutant degradation in Fe-Co-OV/PMS system.•DFT proves that O-vacancies and cation substitution boost PMS adsorption, activation.•Toxicity evaluation confirms the system reduces eco-toxicity & improves water quality. The urgent need for efficient catalytic oxidation of persistent organic pollutants in water has spurred significant research efforts. This study introduces a novel approach using transition metal oxides (TMOs) synthesized via a facile cyanogel-NaBH4 method. By fine-tuning the electronic configuration of active center, we developed ultrathin TMOs with unique electronic states that exhibit exceptional activation of peroxymonosulfate (PMS). Our synthesized TMOs demonstrated a remarkable 3.50–11.86 times higher peroxy-bond activation efficiency than reference metal oxides (bulk Co3O4) for sulfamethazine degradation. Among these, Fe-Co-OV, incorporating oxygen vacancies and low-valent metal substitution, exhibited the highest intrinsic activity (0.0209 g m−2 min−1) and ultra-high PMS utilization efficiency (0.3302). Instrument testing confirmed the pivotal roles of •OH and SO4•− radicals in Fe-Co-OV/PMS system. Theoretical calculations further elucidated how O-vacancies and low-valent cation substitution could redistribute the density of states of the active center, upshift the O p-band center, and create an electron-rich center. This favorable electronic structure promoted PMS adsorption and activation, overcoming the unfavorable redox couple. Live-dead cell staining experiments revealed a 52.63 % increase in cell survival rates in water samples treated with Fe-Co-OV/PMS system, indicating reduced eco-toxicity and improved water quality. Overall, this study established a clear atomic-level correlation between the electronic density of the active center, oxygen vacancies, and cation substitution, providing valuable insights for the rational design of advanced oxidation process catalysts.
AbstractList	[Display omitted] •A facile surfactant-free cyanogel-NaBH4 method is synthesized transition metal oxides.•The fabricated Fe-Co-OV exhibits exceptional intrinsic activity and PMS utilization.•EPR evidence shows ●OH and SO4●- drive pollutant degradation in Fe-Co-OV/PMS system.•DFT proves that O-vacancies and cation substitution boost PMS adsorption, activation.•Toxicity evaluation confirms the system reduces eco-toxicity & improves water quality. The urgent need for efficient catalytic oxidation of persistent organic pollutants in water has spurred significant research efforts. This study introduces a novel approach using transition metal oxides (TMOs) synthesized via a facile cyanogel-NaBH4 method. By fine-tuning the electronic configuration of active center, we developed ultrathin TMOs with unique electronic states that exhibit exceptional activation of peroxymonosulfate (PMS). Our synthesized TMOs demonstrated a remarkable 3.50–11.86 times higher peroxy-bond activation efficiency than reference metal oxides (bulk Co3O4) for sulfamethazine degradation. Among these, Fe-Co-OV, incorporating oxygen vacancies and low-valent metal substitution, exhibited the highest intrinsic activity (0.0209 g m−2 min−1) and ultra-high PMS utilization efficiency (0.3302). Instrument testing confirmed the pivotal roles of •OH and SO4•− radicals in Fe-Co-OV/PMS system. Theoretical calculations further elucidated how O-vacancies and low-valent cation substitution could redistribute the density of states of the active center, upshift the O p-band center, and create an electron-rich center. This favorable electronic structure promoted PMS adsorption and activation, overcoming the unfavorable redox couple. Live-dead cell staining experiments revealed a 52.63 % increase in cell survival rates in water samples treated with Fe-Co-OV/PMS system, indicating reduced eco-toxicity and improved water quality. Overall, this study established a clear atomic-level correlation between the electronic density of the active center, oxygen vacancies, and cation substitution, providing valuable insights for the rational design of advanced oxidation process catalysts.
ArticleNumber	134509
Author	Hu, Min Ouyang, Yixin Zhou, Jiawei Liu, Zifan Hang, Xiaoshuai Zhang, Zepeng Zhang, Lan Zhang, Qifeng Li, Zijian Li, Xiuwen
Author_xml	– sequence: 1 givenname: Zepeng surname: Zhang fullname: Zhang, Zepeng organization: State Key Laboratory of Pollution Control and Resource Reuse, School of Environment, Nanjing University, Nanjing 210023, PR China – sequence: 2 givenname: Yixin orcidid: 0009-0001-6342-3567 surname: Ouyang fullname: Ouyang, Yixin organization: State Key Laboratory of Pollution Control and Resource Reuse, School of Environment, Nanjing University, Nanjing 210023, PR China – sequence: 3 givenname: Jiawei surname: Zhou fullname: Zhou, Jiawei organization: School of Environmental Science and Engineering, Nanjing Tech University, Nanjing 211816, PR China – sequence: 4 givenname: Zifan surname: Liu fullname: Liu, Zifan organization: State Key Laboratory of Pollution Control and Resource Reuse, School of Environment, Nanjing University, Nanjing 210023, PR China – sequence: 5 givenname: Min surname: Hu fullname: Hu, Min organization: State Key Laboratory of Pollution Control and Resource Reuse, School of Environment, Nanjing University, Nanjing 210023, PR China – sequence: 6 givenname: Qifeng surname: Zhang fullname: Zhang, Qifeng organization: State Key Laboratory of Pollution Control and Resource Reuse, School of Environment, Nanjing University, Nanjing 210023, PR China – sequence: 7 givenname: Xiuwen surname: Li fullname: Li, Xiuwen organization: State Key Laboratory of Pollution Control and Resource Reuse, School of Environment, Nanjing University, Nanjing 210023, PR China – sequence: 8 givenname: Lan surname: Zhang fullname: Zhang, Lan email: zhanglan@nies.org organization: Nanjing Institute of Environmental Sciences, Ministry of Ecology and Environment, Nanjing 210042, PR China – sequence: 9 givenname: Xiaoshuai surname: Hang fullname: Hang, Xiaoshuai email: hangxiaoshuai@163.com organization: Nanjing Institute of Environmental Sciences, Ministry of Ecology and Environment, Nanjing 210042, PR China – sequence: 10 givenname: Zijian surname: Li fullname: Li, Zijian email: lizijian0607@foxmail.com organization: College of Life Sciences, Nanjing University, Nanjing 210023, PR China
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Keywords	Cation substitution Peroxymonsulfate activation Water decontamination Interfacial behaviors Cobalt-based catalyst Oxygen vacancy
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Snippet	[Display omitted] •A facile surfactant-free cyanogel-NaBH4 method is synthesized transition metal oxides.•The fabricated Fe-Co-OV exhibits exceptional...
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StartPage	134509
SubjectTerms	Cation substitution Cobalt-based catalyst Interfacial behaviors Oxygen vacancy Peroxymonsulfate activation Water decontamination
Title	Dual engineering of oxygen vacancies and cation substitution: Insights into electronic density redistribution for ultrahigh peroxymonosulfate activation
URI	https://dx.doi.org/10.1016/j.seppur.2025.134509
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