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湖南大学黄彬彬研究团队在分子环境电化学与纳米催化方向取得系列研究进展

发布日期:2021年02月16日  阅读:


 
 

发布者:院主任    
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                  湖南大学黄彬彬研究团队在分子环境电化学与纳米催化方向取得系列研究进展,为电化学及纳米技术在水环境修复领域的应用提供了重要技术手段,并揭示了相关催化机制。相关成果发表在Cell 子刊、EcoMat、J. Catal. 等国际期刊上。
            
            
             分子环境电化学:
            
             1. Q. Guo (博士生:郭倩), C. Lei, W. Chen, J. Zhang, B. Huang*, Electric-Field-Driven Nanoparticles Produce Dual-Function of Bipolar Electrodes and Nano-Electrolytic Cells for Efficient Water Remediation. Cell Reports Physical Science. 2 (2021) 100299.
            
             2. J. Zhang (硕士生:张静雅), C. Lei, W. Chen, Q. Xie, Q. Guo, B. Huang*. Continuous flow of electrochemical-driven nanoparticulate catalysis for highly efficient dechlorination of chlorinated environmental pollutant. Journal of Catalysis (2021), DOI: https://doi.org/10.1016/j.jcat.2021.01.032.
            
             3. H. Yin (硕士生:尹含双), Q. Guo, C. Lei, W. Chen, B. Huang*. Electrochemical-driven carbocatalysis as highly efficient advanced oxidation processes for simultaneous removal of humic acid and Cr(VI). Chemical Engineering Journal 396 (2020) 125156.
            
             4. H. Yin (硕士生:尹含双), X. Cao (硕士生:曹兴凯), C. Lei, W. Chen, B. Huang*(黄彬彬). Insight into electroreductive dehalogenation mechanisms of chlorinated environmental pollutants. ChemElectroChem. 7 (2020) 1–14.
            
             纳米催化方向:
            
             1. B. Huang*, Q. Xie(博士生:谢倩倩), Z. Yang (硕士生:杨湛), C. Lei, W. Chen, X. Tang, F. Maran*. Surfactant-directed Pd-nanoparticle assemblies as efficient nanoreactors for water remediation. EcoMat. 2020; 1–15. https://doi.org/10.1002/eom2.12046. (Back Cover)
            
             2. J. Xie(博士生:谢寄托), C. Lei, W. Chen, Q. Xie, Q. Guo, B. Huang*. Catalytic properties of transition metals modified nanoscale zero-valent iron for simultaneous removal of 4-chlorophenol and Cr(VI). Journal of Hazardous Materials 403 (2021) 123827.
            
             3. C. Lei, C. Wang(硕士生:王春巍) , W. Chen, M. He, B. Huang*. Polyaniline@magnetic chitosan nanomaterials for simultaneous adsorption and in-situ chemical reduction of hexavalent chromium: removal efficacy and mechanisms. Science of the Total Environment 733 (2020) 139316.
            
             4. X. Long (硕士生:龙霞), W. Chen, C. Lei, Q. Xie, F. Zhang, B. Huang*. Ultrafine Pd nanoparticles@g-C3N4 for highly efficient dehalogenation of chlorinated environmental pollutant: structure, efficacy and mechanisms. Science of the Total Environment 2021, In Press.
             		 
 

发布时间:2021-02-16

  

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