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Prof. Xiaoyun Chen, Environmental Catalysis, Best Researcher Award

Professor at Fujian Agriculture and Forestry University, China

Summary:

Prof. Xiaoyun Chen is a researcher specializing in materials science and engineering. She obtained her doctoral degree in Materials Science and Engineering from National Taiwan University of Science and Technology in 2017, following which she pursued postdoctoral research at Fujian Agriculture and Forestry University and National Taiwan University of Science and Technology. Prof. Chen’s research interests primarily focus on functional materials manufacturing, including the synthesis of catalysts for various applications such as hydrogen synthesis from water, methane conversion, and environmental purification using photo/photoelectron-catalytic methods. She has authored and co-authored over 100 original research papers published in SCI journals, with 10 papers recognized as High-cited papers by Essential Science Indicators. Additionally, Prof. Chen holds 29 Chinese/American patents related to her research endeavors.

Professional Profile:

Scopus Profile

👩‍🎓Education & Qualification:

Professional experience:  

Prof. Xiaoyun Chen has extensive professional experience in the field of functional materials manufacturing and photo/photoelectron-catalytic processes. His expertise includes:

  • Research in functional materials manufacturing.
  • Investigation of photo/photoelectron-catalytic H2 synthesis from water.
  • Exploration of photo/photoelectron-catalytic methane conversion.
  • Study of photo/photoelectron-catalytic ammonia synthesis.
  • Research in photocatalytic environmental purification.

He has authored and co-authored over 100 original research papers published in SCI journals and has been recognized for the impact of his work with 10 papers selected as High-cited papers by Essential Science Indicators. Additionally, Prof. Xiaoyun Chen holds 29 Chinese/American patents that have been authorized in his areas of expertise.

Research Interest:

Prof. Xiaoyun Chen’s research interests encompass a wide range of areas in materials science and engineering, with a particular focus on functional materials and catalytic processes. His research endeavors include investigating novel methods for manufacturing functional materials, such as nanostructured materials and composite systems. Additionally, he is deeply involved in the study of photo/photoelectron-catalytic processes for various applications, including hydrogen synthesis from water, methane conversion, ammonia synthesis, and environmental purification. Through his work, Prof. Xiaoyun Chen aims to contribute to the development of sustainable and efficient technologies for energy production, environmental remediation, and chemical synthesis.

Publication Top Noted:

Ti-doped Bi2(O,S)3 bimetal oxysulfide for highly efficient catalytic reduction of organic dyes and heavy metal pollutants in the dark

  • Authors: Su, Z.; Wu, B.; Chen, L.; Lin, J.; Chen, X.
  • Published in: Journal of Science: Advanced Materials and Devices, 2023, 8(4), 100645
  • This article discusses a catalyst based on Ti-doped Bi2(O,S)3 bimetal oxysulfide and its efficiency in reducing organic dyes and heavy metal pollutants in the absence of light.

Oxygen-doped Sn17Sb6S29 bimetal oxysulfide catalysts for efficient reduction of organic pollutants and hexavalent chromium in the dark

  • Authors: Huang, T.; Li, P.; Wu, Q.; Chen, X.; Liu, X.
  • Published in: Reaction Chemistry and Engineering, 2023, 9(2), pp. 410–425
  • This article focuses on oxygen-doped Sn17Sb6S29 bimetal oxysulfide catalysts and their effectiveness in reducing organic pollutants and hexavalent chromium under dark conditions.

Highly efficient production of monocyclic aromatics from catalytic co-pyrolysis of biomass and plastic with nitrogen-doped activated carbon catalyst

  • Authors: Lin, X.; Chen, X.; Fu, P.; Tang, B.; Bi, D.
  • Published in: Chemical Engineering Journal, 2023, 474, 145783
  • This article discusses the use of a nitrogen-doped activated carbon catalyst for the production of monocyclic aromatics via catalytic co-pyrolysis of biomass and plastic.

Mn/O co-doped Bi2S3 bimetal oxysulfide catalyst for highly efficient reduction of organic and hexavalent chromium pollutants in the dark

  • Authors: Wu, B.; Su, Z.; Wu, Q.; Chen, X.; Liu, X.
  • Published in: Materials Today Chemistry, 2023, 33, 101697
  • This article presents a catalyst based on Mn/O co-doped Bi2S3 bimetal oxysulfide and its efficacy in reducing both organic and hexavalent chromium pollutants in the absence of light.

Co/S co-doped Mn3O4-based sulfur-oxide nano-flakes catalyst for highly efficient catalytic reduction of organics and hexavalent chromium pollutants

  • Authors: Chen, L.; Su, Z.; Wu, Q.; Chen, X.; Liu, X.
  • Published in: Journal of Water Process Engineering, 2023, 55, 104168
  • This article discusses a catalyst composed of Co/S co-doped Mn3O4-based sulfur-oxide nano-flakes and its effectiveness in catalytic reduction of organics and hexavalent chromium pollutants.

 

Xiaoyun Chen | Environmental Catalysis | Best Researcher Award

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