职务/职称：讲师

             办公室电话：15626406997

             电子邮箱：yhsun@mail.zjgsu.edu.cn

             所在系所（部门）：环境科学与工程系

             主要研究方向：大气污染控制、碳化学能源转化

教育经历                                                           

       2010-2014，山东建筑大学环境工程专业,获工学学士学位
       2014-2020，华南理工大学大气污染控制方向,获工学博士学位

工作经历                                                           

       2020-今，bat365,讲师

教学工作简介                                                     

       主讲本科生课程：《环境监测》、《环境工程学》
       主讲研究生课程：《环境科学与工程前沿》、《高等环境化学》、《污染控制化学及工程》

代表学术论文                                                     

       [1] Y. Sun, C. Huang, L. Chen, Y. Zhang, M. Fu, J. Wu, D. Ye, Active site structure study of Cu/Plate ZnO model catalysts for CO2 hydrogenation to methanol under the real reaction conditions, Journal of CO2 Utilization, 37 (2020) 55-64.
       [2] Y. Sun, J. Li, P. Chen, B. Wang, J. Wu, M. Fu, L. Chen, D. Ye, Reverse water-gas shift in a packed bed DBD reactor: Investigation of metal-support interface towards a better understanding of plasma catalysis, Applied Catalysis A: General, 591 (2020) 117407.
       [3] Y. Sun, L. Chen, Y. Bao, G. Wang, Y. Zhang, M. Fu, J. Wu, D. Ye, Roles of nitrogen species on nitrogen-doped CNTs supported Cu-ZrO2 system for carbon dioxide hydrogenation to methanol, Catalysis Today, 307 (2018) 212-223.
       [4] Y. Sun, L. Chen, Y. Bao, Y. Zhang, J. Wang, M. Fu, J. Wu, D. Ye, The Applications of Morphology Controlled ZnO in Catalysis, Catalysts, 6 (2016).
       [5] S. Mo, Q. Zhang, J. Li, Y. Sun, Q. Ren, S. Zou, Q. Zhang, J. Lu, M. Fu, D. Mo, J. Wu, H. Huang, D. Ye, Highly efficient mesoporous MnO2 catalysts for the total toluene oxidation: Oxygen-Vacancy defect engineering and involved intermediates using in situ DRIFTS, Applied Catalysis B: Environmental, 264 (2020) 118464.
       [6] Q. Zhang, S. Mo, J. Li, Y. Sun, M. Zhang, P. Chen, M. Fu, J. Wu, L. Chen, D. Ye, In situ DRIFT spectroscopy insights into the reaction mechanism of CO and toluene co-oxidation over Pt-based catalysts, Catalysis Science & Technology, 9 (2019) 4538-4551.
       [7] S. Mo, Q. Zhang, Y. Sun, M. Zhang, J. Li, Q. Ren, M. Fu, J. Wu, L. Chen, D. Ye, Gaseous CO and toluene co-oxidation over monolithic core–shell Co3O4-based hetero-structured catalysts, Journal of Materials Chemistry A, 7 (2019) 16197-16210.
       [8] B. Wang, B. Chen, Y. Sun, H. Xiao, X. Xu, M. Fu, J. Wu, L. Chen, D. Ye, Effects of dielectric barrier discharge plasma on the catalytic activity of Pt/CeO2 catalysts, Applied Catalysis B: Environmental, 238 (2018) 328-338.
       [9] J. Li, Y. Sun, B. Wang, H. Xiao, J. Wu, L. Chen, M. Fu, D. Ye, Effect of plasma on catalytic conversion of CO2 with hydrogen over Pd/ZnO in a dielectric barrier discharge reactor, Journal of Physics D: Applied Physics, 52 (2019) 244001.
      [10] C. Huang, J. Wen, Y. Sun, M. Zhang, Y. Bao, Y. Zhang, L. Liang, M. Fu, J. Wu, D. Ye, L. Chen, CO2 hydrogenation to methanol over Cu/ZnO plate model catalyst: Effects of reducing gas induced Cu nanoparticle morphology, Chemical Engineering Journal, 374 (2019) 221-230.
      [11] S. Mo, S. Li, Q. Ren, M. Zhang, Y. Sun, B. Wang, Z. Feng, Q. Zhang, Y. Chen, D. Ye, Vertically-aligned Co3O4 arrays on Ni foam as monolithic structured catalysts for CO oxidation: effects of morphological transformation, Nanoscale, 10 (2018) 7746-7758.
      [12] B. Chen, B. Wang, Y. Sun, X. Wang, M. Fu, J. Wu, L. Chen, Y. Tan, D. Ye, Plasma-Assisted Surface Interactions of Pt/CeO2 Catalyst for Enhanced Toluene Catalytic Oxidation, Catalysts, 9 (2018).
      [13] L. Chen, Y. Bao, Y. Sun, D. Ma, D. Ye, B. Huang, The graphitic carbon strengthened synergetic effect between Pt and FeNi in CO preferential oxidation in excess hydrogen at low temperature, Catalysis Science & Technology, 6 (2016) 98-106.
      [14] G. Wang, L. Chen, Y. Sun, J. Wu, M. Fu, D. Ye, Carbon dioxide hydrogenation to methanol over Cu/ZrO2/CNTs: effect of carbon surface chemistry, RSC Advances, 5 (2015) 45320-45330.