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同专业博导

陈敏东
个人信息 职称：教授
博士生导师
性别：男
所在单位：环境科学与工程学院
学科：环境科学与工程

办公地点：学科1楼楼four 0 four
联系方式：chenmd@nuist.edu.cn

其他联系方式暂无内容


个人简介
姓名:陈敏东
出生年月:1964年10月
性别:男
导师:博士生导师
职称:教授
职务:学院党委书记
最高学历:博士
所属专业:物理化学
工作单位:环境科学与工程学院
办公地点:学科楼four 0 four
邮箱:chenmd@nuist.edu.cn
主要研究领域:大气环境化学，环境材料, 大气污染与人体健康
教育背景:
1996.9—2001.7中国科学院兰州化学物理研究所 物理化学博士
分别于2006.11-2008.4和2011年7-8月在英国雷丁大学访问****
工作经历:
2001.8—2007.8南京信息工程大学环境科学与工程学院副教授/副院长
2007—2009.8南京信息工程大学环境科学与工程学院教授/副院长
2009.8—2016.3南京信息工程大学环境科学与工程学院教授/院长/江苏省大气环境监测与污染控制重点实验室主任/江苏省环境净化材料工程中心主任/江苏省大气环境与装备技术协同创新中心主任
2016.3-2017.10 南京信息工程大学环境科学与工程学院教授/党委书记/江苏省大气环境监测与污染控制重点实验室主任/江苏省大气环境与装备技术协同创新中心主任
2017.11--2019.10 南京信息工程大学研究生院院长/学科建设处处长
2019.10--2021.1 南京信息工程大长望学院党总支书记
2021.2---------- 南京信息工程大环境科学与工程学院党委书记

学术兼职:
中国环境科学学会大气分会副理事长
中国气象学会大气成分委员会副主任委员
江苏省环境科学学会会员
电力环保专业委员会委员
电力环境标准委员会会委员
江苏省环境管理标准技术委员会委员
国家自然科学基金通讯评议专家，评审专家（优青、青年、面上、重点、重大、仪器专项项目）
中组部“青年千人”评审专家
浙江省基金评审专家
国家清洁生产审核师
荣誉获奖:
1、江苏省普通高等学校“青蓝工程”优秀青年骨干教师(2002年，省教育厅)
2、江苏省本科优秀毕业论文团队奖(2006年，省教育厅)
4、江苏省“青蓝工程”中青年学术带头人(2008年，省教育厅)
5、江苏省“六大人才高峰”学科带头人(2008年，省人事厅)
6、江苏省教学成果一等奖(2009年，江苏省政府，5/5)
7、指导学生获首届江苏省大学生化学化工实验竞赛化工组竞赛二等奖(2010年，省教育厅)
8、江苏省高校优秀共产党员江苏省教育厅(2010年，省教育工委)
9、江苏省教学成果一等奖(2011年，江苏省政府，5/10)
10、第十一届全国多媒体课件大赛高教工科组三等奖(2011年，教育部)
11、江苏省发改委环境政策咨询二等奖(2012年，省发改委）
12、指导学生获第二届江苏省大学生化学化工实验竞赛化工组竞赛三等奖(2012年，省教育厅)
13、江苏省教学成果二等奖(2013年，江苏省政府，排名第1)
14、国家能源局一等奖（2014年，国家能源局）
15、第十四届大学生挑战杯江苏省二等奖指导教师（2015，江苏省，第2）
16、江苏省环保二等奖（2015年，环保厅）
17、环保部科技三等奖（2015年，环保部，排名第2）
18、环保部科技二等奖（2016年，环保部，排名第1）
19、江苏省研究生双语课程1门《Trace Environment Quantitative Analysis-Principles》
20、江苏省优秀研究生课程1门《现代环境分析技术》
21、中国环境科学学会优秀科技工作者第9届、第11届优秀科技工作者
22、江苏省首届“十佳研究生导师团队”2018年
近期主要论著:
英文期刊文章
[1]. Xiaoyun Ma, Dongyang Nie, Mindong Chen, Pengxiang Ge, Zhengjiang Liu, Xinlei Ge, Zhirao Li, The Relative Contributions of Different Chemical Components to the Oxidative Potential of Ambient Fine Particles in Nanjing Area, Int. J. Environ. Res. Public Health 2021, 18,2789. https://doi.org/10.3390/ijerph**
[2]. Junfeng Wang; Jianhuai Ye; Qi Zhang; Jian Zhao; Yangzhou Wu; Jingyi Li; Dantong Liu; Weijun Li; Yange Zhang; Cheng Wu; Conghui Xie; Yiming Qin; Yali Lei; Xiangpeng Huang; Jianping Guo; Pengfei Liu; Pingqing Fu; Yongjie Li; Hyun Chul Lee; Hyoungwoo Choi; Jie Zhang; Hong Liao; Mindong Chen, Yele Sun;Xinlei Ge*; Scot T. Martin; Daniel J. Jacob*; Aqueous production of secondary organic aerosol from fossil fuel emissions in winter Beijing haze, Proceedings of the National Academy of Sciences of the United States of America, 2021, 118(8): e.
[3]. Wang, J.; Li, J.; Ye, J.; Zhao, J.; Wu, Y.; Hu, J.; Liu, D.; Nie, D.; Shen, F.; Huang, X.; Huang, D.D.; Ji, D.; Sun, X.; Xu, W.; Guo, J.; Song, S.; Qin, Y.; Liu, P.; Turner, J.R.; Lee, H.C.; Hwang, S.; Liao, H.; Martin, S.T.; Zhang, Q.; Chen, M.; Sun, Y.; Ge, X.; Jacob, D.J. Fast sulfate formation from oxidation of SO₂ by NO₂ and HONO observed in Beijing haze. Nature Communications 2020;11:2844
[4]. W. Li , M. Wang, M. Chen, X. Ge, D. Nie, Carbohydrates observations in suburb Nanjing, Yangtze River of Delta during 2017–2018: Concentration, seasonal variation, and source apportionment, Atmospheric Environment, 2020.
[5]. Zhang, L.; Shen, F.; Gao, J.; Cui, S.; Yue, H.; Wang, J.; Chen, M.; Ge, X., Characteristics and potential sources of black carbon particles in suburban Nanjing, China. Atmospheric Pollution Research 2020, 11, (5), 981-991.
[6]. Yang, H.; Xu, L.; Chen, M.; Lv, C.; Cui, Y.; Wen, X.; Wu, C.-e.; Yang, B.; Miao, Z.; Hu, X.; Shou, Q., Facilely fabricating highly dispersed Ni-based catalysts supported on mesoporous MFI nanosponge for CO₂ methanation. Microporous and Mesoporous Materials 2020, 302.
[7]. Xu, R.; Li, X.; Dong, H.; Wu, Z.; Chen, S.; Fang, X.; Gao, J.; Guo, S.; Hu, M.; Li, D.; Liu, Y.; Liu, Y.; Lou, S.; Lu, K.; Meng, X.; Wang, H.; Zeng, L.; Zong, T.; Hu, J.; Chen, M.; Shao, M.; Zhang, Y., Measurement of gaseous and particulate formaldehyde in the Yangtze River Delta, China. Atmospheric Environment 2020, 224.
[8]. Xu, J.; Liu, C.; Niu, J.; Zhu, Y.; Zang, B.; Xie, M.; Chen, M., Synthesis of LaFeO₃/Bi₃NbO₇ p-n heterojunction photocatalysts with enhanced visible-light-responsive activity for photocatalytic reduction of Cr(VI). Journal of Alloys and Compounds 2020, 815.
[9]. Xu, J.; Liu, C.; Niu, J.; Chen, M., Preparation of In₂S₃ nanosheets decorated KNbO₃ nanocubes composite photocatalysts with significantly enhanced activity under visible light irradiation. Separation and Purification Technology 2020, 230.
[10].Shen, W.; Ren, L.; Zhao, Y.; Zhou, L.; Dai, L.; Ge, X.; Kong, S.; Yan, Q.; Xu, H.; Jiang, Y.; He, J.; Chen, M.; Yu, H., C1-C2 alkyl aminiums in urban aerosols: Insights from ambient and fuel combustion emission measurements in the Yangtze River Delta region of China (vol 230, pg 12, 2017). Environmental Pollution 2020, 257.
[11].Shen, F.; Zhang, L.; Jiang, L.; Tang, M.; Gai, X.; Chen, M.; Ge, X., Temporal variations of six ambient criteria air pollutants from 2015 to 2018, their spatial distributions, health risks and relationships with socioeconomic factors during 2018 in China. Environment International 2020, 137.
[12].Lv, C.; Xu, L.; Chen, M.; Cui, Y.; Wen, X.; Li, Y.; Wu, C.-E.; Yang, B.; Miao, Z.; Hu, X.; Shou, Q., Recent Progresses in Constructing the Highly Efficient Ni Based Catalysts With Advanced Low-Temperature Activity Toward CO₂ Methanation. Frontiers in chemistry 2020, 8, 269-269.
[13].Liu, C.; Xu, J.; Niu, J.; Chen, M.; Zhou, Y., Direct Z-scheme Ag₃PO₄/Bi₄Ti₃O₁₂ heterojunction with enhanced photocatalytic performance for sulfamethoxazole degradation. Separation and Purification Technology 2020, 241.
[14].Li, W.; Chen, M.; Ge, X.; Gu, C.; Yu, W.; Nie, D., Validation of a sensitive high performance liquid chromatography tandem mass spectrometric method for measuring carbohydrates in aerosol samples. Journal of Chromatography A 2020, 1619.
[15].Yue, J.; Xu, J.; Niu, J.; Chen, M., Synergistic effects of multiple heterojunctions significantly enhance the photocatalytic H-2 evolution rate CdS/La₂Ti₂O₇/NiS₂ ternary composites. International Journal of Hydrogen Energy 2019, 44, (36), 19603-19613.
[16].Yuan, Y.; Wu, Y.; Ge, X.; Nie, D.; Wang, M.; Zhou, H.; Chen, M., In vitro toxicity evaluation of heavy metals in urban air particulate matter on human lung epithelial cells. Science of the Total Environment 2019, 678, 301-308.
[17].Ye, Z.; Qu, Z.; Ma, S.; Luo, S.; Chen, Y.; Chen, H.; Chen, Y.; Zhao, Z.; Chen, M.; Ge, X., A comprehensive investigation of aqueous-phase photochemical oxidation of 4-ethylphenol. Science of the Total Environment 2019, 685, 976-985.
[18].Yang, B.; Peng, A.; Wang, X.; Huang, Q.; Chen, M.; Shen, Y.; Xu, H.; Zhu, S., Simultaneous catalytic oxidation of CO and Hg-0 over Au/TiO₂ catalysts: Structure and mechanism study. Molecular Catalysis 2019, 479, 88-99.
[19].Yang, B.; Li, Z.; Huang, Q.; Chen, M.; Xu, L.; Shen, Y.; Zhu, S., Synergetic removal of elemental mercury and NO over TiCe_0.25Sn_0.25O_x catalysts from flue gas: Performance and mechanism study. Chemical Engineering Journal 2019, 360, 990-1002.
[20].Xu, L.; Cui, Y.; Chen, M.; Lian, X.; Yang, B.; Wu, C.-e.; Wang, F., Effects of the fabrication strategy on the catalytic performances of Co-Ni bimetal ordered mesoporous catalysts toward CO₂ methanation. Sustainable Energy & Fuels 2019, 3, (11), 3038-3049.
[21].Xu, J.; Yue, J.; Niu, J.; Chen, M., Synergistic removal of Cr(VI) and dye contaminants by 0D/2D bismuth molybdate homojunction photocatalyst under visible light. Applied Surface Science 2019, 484, 1080-1088.
[22].Xu, J.; Wang, Y.; Niu, J.; Chen, M., Facile construction of BiOBr/BiOCOOH p-n heterojunction photocatalysts with improved visible-light-driven photocatalytic performance. Separation and Purification Technology 2019, 225, 24-32.
[23].Wu, Y.; Liu, D.; Wang, J.; Shen, F.; Chen, Y.; Cui, S.; Ge, S.; Wu, Y.; Chen, M.; Ge, X., Characterization of Size-Resolved Hygroscopicity of Black Carbon-Containing Particle in Urban Environment. Environmental Science & Technology 2019, 53, (24), 14212-14221.
[24].Wang, J.; Liu, D.; Ge, X.; Wu, Y.; Shen, F.; Chen, M.; Zhao, J.; Xie, C.; Wang, Q.; Xu, W.; Zhang, J.; Hu, J.; Allan, J.; Joshi, R.; Fu, P.; Coe, H.; Sun, Y., Characterization of black carbon-containing fine particles in Beijing during wintertime. Atmospheric Chemistry and Physics 2019, 19, (1), 447-458.
[25].Qi, L.; Chen, M.; Stefenelli, G.; Pospisilova, V.; Tong, Y.; Bertrand, A.; Hueglin, C.; Ge, X.; Baltensperger, U.; Prevot, A. S. H.; Slowik, J. G., Organic aerosol source apportionment in Zurich using an extractive electrospray ionization time-of-flight mass spectrometer (EESI-TOF-MS) - Part 2: Biomass burning influences in winter. Atmospheric Chemistry and Physics 2019, 19, (12), 8037-8062.
[26].Lu, J.; Ge, X.; Liu, Y.; Chen, Y.; Xie, X.; Ou, Y.; Ye, Z.; Chen, M., Significant secondary organic aerosol production from aqueous-phase processing of two intermediate volatility organic compounds. Atmospheric Environment 2019, 211, 63-68.
[27].Liu, X.; Nie, D.; Zhang, K.; Wang, Z.; Li, X.; Shi, Z.; Wang, Y.; Huang, L.; Chen, M.; Ge, X.; Ying, Q.; Yu, X.; Liu, X.; Hu, J., Evaluation of particulate matter deposition in the human respiratory tract during winter in Nanjing using size and chemically resolved ambient measurements. Air Quality Atmosphere and Health 2019, 12, (5), 529-538.
[28].Liu, J.; Li, X.; Yang, Y.; Wang, H.; Wu, Y.; Lu, X.; Chen, M.; Hu, J.; Fan, X.; Zeng, L.; Zhang, Y., An IBBCEAS system for atmospheric measurements of glyoxal and methylglyoxal in the presence of high NO₂ concentrations. Atmospheric Measurement Techniques 2019, 12, (8), 4439-4453.
[29].Lian, X.; Xu, L.; Chen, M.; Wu, C.-e.; Li, W.; Huang, B.; Cui, Y., Carbon Dioxide Captured by Metal Organic Frameworks and Its Subsequent Resource Utilization Strategy: A Review and Prospect. Journal of Nanoscience and Nanotechnology 2019, 19, (6), 3059-3078.
[30].Fu, Y.; Shen, Y.; Zhang, Z.; Ge, X.; Chen, M., Activated bio-chars derived from rice husk via one- and two-step KOH-catalyzed pyrolysis for phenol adsorption. Science of the Total Environment 2019, 646, 1567-1577.
[31].Cui, Y.; Xu, L.; Chen, M.; Lv, C.; Lian, X.; Wu, C.-E.; Yang, B.; Miao, Z.; Wang, F.; Hu, X., CO Oxidation over Metal Oxide (La₂O₃, Fe₂O₃, PrO₂, Sm₂O₃, and MnO₂) Doped CuO-Based Catalysts Supported on Mesoporous Ce0.8Zr0.2O2 with Intensified Low-Temperature Activity. Catalysts 2019, 9, (9).
[32].Cui, Y.; Xu, L.; Chen, M.; Lian, X.; Wu, C.-e.; Yang, B.; Miao, Z.; Wang, F.; Hu, X., Facilely fabricating mesoporous nanocrystalline Ce-Zr solid solution supported CuO-based catalysts with advanced low-temperature activity toward CO oxidation. Catalysis Science & Technology 2019, 9, (20), 5605-5625.
[33].Cui, Y.; Lian, X.; Xu, L.; Chen, M.; Yang, B.; Wu, C.-e.; Li, W.; Huang, B.; Hu, X., Designing and Fabricating Ordered Mesoporous Metal Oxides for CO₂ Catalytic Conversion: A Review and Prospect. Materials 2019, 12, (2).
[34].Chen, H.; Zeng, J.; Chen, M.; Chen, Z.; Ji, M.; Zhao, J.; Xia, J.; Li, H., Improved visible light photocatalytic activity of mesoporous FeVO₄ nanorods synthesized using a reactable ionic liquid. Chinese Journal of Catalysis 2019, 40, (5), 744-754.
[35].Zhang, M.; Zheng, B.-H.; Xu, J.; Pan, N.; Yu, J.; Chen, M.; Cao, H., Fewer- layer conductive metal- organic nanosheets enable ultrahigh mass activity for the oxygen evolution reaction. Chemical Communications 2018, 54, (96), 13579-13582.
[36].Xu, L.; Lian, X.; Chen, M.; Cui, Y.; Wang, F.; Li, W.; Huang, B., CO₂ methanation over Co-Ni bimetal-doped ordered mesoporous Al2O3 catalysts with enhanced low-temperature activities. International Journal of Hydrogen Energy 2018, 43, (36), 17172-17184.
[37].Xu, J.; Wang, Y.; Chen, M.; Teng, F., A novel BiOCl/BiOCOOH heterojunction photocatalyst with significantly enhanced photocatalytic activity. Materials Letters 2018, 222, 176-179.
[38].Wu, Y.; Ge, X.; Wang, J.; Shen, Y.; Ye, Z.; Ge, S.; Wu, Y.; Yu, H.; Chen, M., Responses of secondary aerosols to relative humidity and photochemical activities in an industrialized environment during late winter. Atmospheric Environment 2018, 193, 66-78.
[39].Wang, J.; Wu, Y.; Ge, X.; Shen, Y.; Ge, S.; Chen, M., Characteristics and sources of ambient refractory black carbon aerosols: Insights from soot particle aerosol mass spectrometer. Atmospheric Environment 2018, 185, 147-152.
[40].Sun, M.; Cheng, G.; Ge, X.; Chen, M.; Wang, C.; Lou, L.; Xu, X., Aqueous Hg(II) immobilization by chitosan stabilized magnetic iron sulfide nanoparticles. Science of the Total Environment 2018, 621, 1074-1083.
[41].Shen, Y.; Yuan, R.; Chen, X.; Ge, X.; Chen, M., Co-pyrolysis of E-Waste Nonmetallic Residues with Biowastes. Acs Sustainable Chemistry & Engineering 2018, 6, (7), 9086-9093.
[42].Nie, D.; Wu, Y.; Chen, M.; Liu, H.; Zhang, K.; Ge, P.; Yuan, Y.; Ge, X., Bioaccessibility and health risk of trace elements in fine particulate matter in different simulated body fluids. Atmospheric Environment 2018, 186, 1-8.
[43].Nie, D.; Chen, M.; Wu, Y.; Ge, X.; Hu, J.; Zhang, K.; Ge, P., Characterization of Fine Particulate Matter and Associated Health Burden in Nanjing. International Journal of Environmental Research and Public Health 2018, 15, (4).
[44].Fan, X.; Dawson, J.; Chen, M.; Qiu, C.; Khalizov, A., Thermal Stability of Particle-Phase Monoethanolamine Salts. Environmental Science & Technology 2018, 52, (4), 2409-2417.
[45].Chen, Y.; Ge, X.; Chen, H.; Xie, X.; Chen, Y.; Wang, J.; Ye, Z.; Bao, M.; Zhang, Y.; Chen, M., Seasonal light absorption properties of water-soluble brown carbon in atmospheric fine particles in Nanjing, China. Atmospheric Environment 2018, 187, 230-240.
[46].Cai, W.; Zhong, Q.; Wang, D.; Zhao, Y.; Chen, M.; Bu, Y., A Rational Design for Enhanced Catalytic Activity and Durability: Strongly Coupled N-Doped CrOx/Ce0.2Zr0.8O2 Nanoparticle Composites. Acs Applied Nano Materials 2018, 1, (3), 1150-1163.
[47].Cai, W.; Zhao, Y.; Chen, M.; Jiang, X.; Wang, H.; Ou, M.; Wan, S.; Zhong, Q., The formation of 3D spherical Cr-Ce mixed oxides with roughness surface and their enhanced low-temperature NO oxidation. Chemical Engineering Journal 2018, 333, 414-422.
[48].Cai, W.; Shi, Y.; Zhao, Y.; Chen, M.; Zhong, Q.; Bu, Y., The solvent-driven formation of multi-morphological Ag-CeO2 plasmonic photocatalysts with enhanced visible-light photocatalytic reduction of CO2. Rsc Advances 2018, 8, (71), 40731-40739.
[49].Zu, Y.; Huang, L.; Hu, J.; Zhao, Z.; Liu, H.; Zhang, H.; Ying, Q.; Chen, M., Investigation of relationships between meteorological conditions and high PM10 pollution in a megacity in the western Yangtze River Delta, China. Air Quality Atmosphere and Health 2017, 10, (6), 713-724.
[50].Zhang, M.; Wang, G.; Zhao, D.; Huang, C.; Cao, H.; Chen, M., 3D hole-transporting materials based on coplanar quinolizino acridine for highly efficient perovskite solar cells. Chemical Science 2017, 8, (11), 7807-7814.
[51].Zhang, L.; Li, Y.; Zhou, H.; Chen, M., Performance of 1,8-Diazabicyclo 5.4.0 undec-7-ene-Modified SBA-15 for Selective Adsorption of CO₂. Energy & Fuels 2017, 31, (3), 3062-3068.
[52].Yu, H.; Dai, L.; Zhao, Y.; Kanawade, V. P.; Tripathi, S. N.; Ge, X.; Chen, M.; Lee, S.-H., Laboratory observations of temperature and humidity dependencies of nucleation and growth rates of sub-3nm particles. Journal of Geophysical Research-Atmospheres 2017, 122, (3), 1919-1929.
[53].Xu, L.; Yang, H.; Chen, M.; Wang, F.; Nie, D.; Qi, L.; Lian, X.; Chen, H.; Wu, M., CO2 methanation over Ca doped ordered mesoporous Ni-Al composite oxide catalysts: The promoting effect of basic modifier. Journal of Co2 Utilization 2017, 21, 200-210.
[54].Xu, L.; Wang, F.; Chen, M.; Yang, H.; Nie, D.; Qi, L.; Lian, X., Alkaline-promoted Ni based ordered mesoporous catalysts with enhanced low-temperature catalytic activity toward CO₂ methanation. Rsc Advances 2017, 7, (30), 18199-18210.
[55].Xu, L.; Wang, F.; Chen, M.; Nie, D.; Lian, X.; Lu, Z.; Chen, H.; Zhang, K.; Ge, P., CO₂ methanation over rare earth doped Ni based mesoporous catalysts with intensified low-temperature activity. International Journal of Hydrogen Energy 2017, 42, (23), 15523-15539.
[56].Xu, L.; Wang, F.; Chen, M.; Fan, X.; Yang, H.; Nie, D.; Qi, L., Alkaline-promoted Co-Ni bimetal ordered mesoporous catalysts with enhanced coke-resistant performance toward CO₂ reforming of CH4. Journal of Co2 Utilization 2017, 18, 1-14.
[57].Xu, J.; Wu, M.; Yang, J.; Wang, Z.; Chen, M.; Teng, F., Efficient photocatalytic degradation of perfluorooctanoic acid by a wide band gap p-block metal oxyhydroxide InOOH. Applied Surface Science 2017, 416, 587-592.
[58].Wang, J.; Zhang, Q.; Chen, M.; Collier, S.; Zhou, S.; Ge, X.; Xu, J.; Shi, J.; Xie, C.; Hu, J.; Ge, S.; Sun, Y.; Coe, H., First Chemical Characterization of Refractory Black Carbon Aerosols and Associated Coatings over the Tibetan Plateau (4730 m a.s.l). Environmental Science & Technology 2017, 51, (24), 14072-14082.
[59].Wang, C.; Ji, J.; Chen, M.; Zhong, C.; Yang, Z.; Browne, P., Atmospheric contribution to boron enrichment in aboveground wheat tissues. Chemosphere 2017, 174, 655-663.
[60].Song, Y.; Chen, M.; Zhou, J., Effects of three pesticides on superoxide dismutase and glutathione-S-transferase activities and reproduction of Daphnia magna. Archives of Environmental Protection 2017, 43, (1), 80-86.
[61].Shen, Y.; Yu, S.; Ge, S.; Chen, X.; Ge, X.; Chen, M., Hydrothermal carbonization of medical wastes and lignocellulosic biomass for solid fuel production from lab-scale to pilot-scale. Energy 2017, 118, 312-323.
[62].Shen, W.; Ren, L.; Zhao, Y.; Zhou, L.; Dai, L.; Ge, X.; Kong, S.; Yan, Q.; Xu, H.; Jiang, Y.; He, J.; Chen, M.; Yu, H., C1-C2 alkyl aminiums in urban aerosols: Insights from ambient and fuel combustion emission measurements in the Yangtze River Delta region of China. Environmental Pollution 2017, 230, 12-21.
[63].Shen, F.; Ge, X.; Hu, J.; Nie, D.; Tian, L.; Chen, M., Air pollution characteristics and health risks in Henan Province, China. Environmental Research 2017, 156, 625-634.
[64].Li, R.; Li, J.; Cui, L.; Wu, Y.; Fu, H.; Chen, J.; Chen, M., Atmospheric emissions of Cu and Zn from coal combustion in China: Spatio-temporal distribution, human health effects, and short-term prediction. Environmental Pollution 2017, 229, 724-734.
[65].Huang, L.; Hu, J.; Chen, M.; Zhang, H., Impacts of power generation on air quality in China-part I: An overview. Resources Conservation and Recycling 2017, 121, 103-114.
[66].Hu, J.; Huang, L.; Chen, M.; Liao, H.; Zhang, H.; Wang, S.; Zhang, Q.; Ying, Q., Premature Mortality Attributable to Particulate Matter in China: Source Contributions and Responses to Reductions. Environmental Science & Technology 2017, 51, (17), 9950-9959.
[67].Hu, J.; Huang, L.; Chen, M.; He, G.; Zhang, H., Impacts of power generation on air quality in China-Part II: Future scenarios. Resources Conservation and Recycling 2017, 121, 115-127.
[68].Ge, X.; Li, L.; Chen, Y.; Chen, H.; Wu, D.; Wang, J.; Xie, X.; Ge, S.; Ye, Z.; Xu, J.; Chen, M., Aerosol characteristics and sources in Yangzhou, China resolved by offline aerosol mass spectrometry and other techniques. Environmental Pollution 2017, 225, 74-85.
[69].Ge, X.; He, Y.; Sun, Y.; Xu, J.; Wang, J.; Shen, Y.; Chen, M., Characteristics and Formation Mechanisms of Fine Particulate Nitrate in Typical Urban Areas in China. Atmosphere 2017, 8, (3).
[70].Dai, L.; Wang, H.; Zhou, L.; An, J.; Tang, L.; Lu, C.; Yan, W.; Liu, R.; Kong, S.; Chen, M.; Lee, S.; Yu, H., Regional and local new particle formation events observed in the Yangtze River Delta region, China. Journal of Geophysical Research-Atmospheres 2017, 122, (4), 2389-2402.
[71].Cai, W.; Bu, Y.; Zhao, Y.; Chen, M.; Yu, Y.; Zhong, Q., A simple seed-mediated growth method for the synthesis of highly morphology controlled CrO_x/Ce_0.2Zr_0.8O₂ catalysts and their enhanced NO oxidation. Chemical Engineering Journal 2017, 317, 376-385.
[72].Zuo, X.; Liu, Z.; Chen, M., Effect of H2O2 concentrations on copper removal using the modified hydrothermal biochar. Bioresource Technology 2016, 207, 262-267.
[73].Zuo, X.; Chen, M.; Fu, D.; Li, H., The formation of alpha-FeOOH onto hydrothermal biochar through H2O2 and its photocatalytic disinfection. Chemical Engineering Journal 2016, 294, 202-209.
[74].Yu, H.; Zhou, L.; Dai, L.; Shen, W.; Dai, W.; Zheng, J.; Ma, Y.; Chen, M., Nucleation and growth of sub-3nm particles in the polluted urban atmosphere of a megacity in China. Atmospheric Chemistry and Physics 2016, 16, (4), 2641-2657.
[75].Xu, L.; Zhang, X.; Chen, M.; Qi, L.; Nie, D.; Ma, Y., Facilely fabricating Mg, Ca modified Co based ordered mesoporous catalysts for CO2 reforming of CH4: The effects of basic modifiers. International Journal of Hydrogen Energy 2016, 41, (39), 17348-17360.
[76].Xu, L.; Wang, F.; Chen, M.; Zhang, J.; Yuan, K.; Wang, L.; Wu, K.; Xu, G.; Chen, W., CO2 methanation over a Ni based ordered mesoporous catalyst for the production of synthetic natural gas. Rsc Advances 2016, 6, (34), 28489-28499.
[77].Xu, L.; Wang, F.; Chen, M.; Zhang, J.; Yuan, K.; Wang, L.; Wu, K.; Xu, G.; Chen, W., Carbon Dioxide Reforming of Methane over Cobalt-Nickel Bimetal-Doped Ordered Mesoporous Alumina Catalysts with Advanced Catalytic Performances. Chemcatchem 2016, 8, (15), 2536-2548.
[78].Wu, Y.; Guo, Z.; Zhang, W.; Tan, Q.; Zhang, L.; Ge, X.; Chen, M., Quantitative Relationship between Cadmium Uptake and the Kinetics of Phytochelatin Induction by Cadmium in a Marine Diatom. Scientific Reports 2016, 6.
[79].Wang, Y.; Yang, W.; Han, B.; Zhang, W.; Chen, M.; Bai, Z., Gravimetric analysis for PM_2.5 mass concentration based on year-round monitoring at an urban site in Beijing. Journal of Environmental Sciences 2016, 40, 154-160.
[80].Wang, J.; Onasch, T. B.; Ge, X.; Collier, S.; Zhang, Q.; Sun, Y.; Yu, H.; Chen, M.; Prevot, A. S. H.; Worsnop, D. R., Observation of Fullerene Soot in Eastern China. Environmental Science & Technology Letters 2016, 3, (4), 121-126.
[81].Wang, J.; Ge, X.; Chen, Y.; Shen, Y.; Zhang, Q.; Sun, Y.; Xu, J.; Ge, S.; Yu, H.; Chen, M., Highly time-resolved urban aerosol characteristics during springtime in Yangtze River Delta, China: insights from soot particle aerosol mass spectrometry. Atmospheric Chemistry and Physics 2016, 16, (14), 9109-9127.
[82].Shen, Y.; Zhao, R.; Wang, J.; Chen, X.; Ge, X.; Chen, M., Waste-to-energy: Dehalogenation of plastic-containing wastes. Waste Management 2016, 49, 287-303.
[83].Shen, Y.; Wang, J.; Ge, X.; Chen, M., By-products recycling for syngas cleanup in biomass pyrolysis - An overview. Renewable & Sustainable Energy Reviews 2016, 59, 1246-1268.
[84].Shen, Y.; Ge, X.; Chen, M., Catalytic oxidation of nitric oxide (NO) with carbonaceous materials. Rsc Advances 2016, 6, (10), 8469-8482.
[85].Shen, Y.; Chen, X.; Wang, J.; Ge, X.; Chen, M., Oil sludge recycling by ash-catalyzed pyrolysis-reforming processes. Fuel 2016, 182, 871-878.
[86].Qi, L.; Zhang, Y.; Ma, Y.; Chen, M.; Ge, X.; Ma, Y.; Zheng, J.; Wang, Z.; Li, S., Source identification of trace elements in the atmosphere during the second Asian Youth Games in Nanjing, China: Influence of control measures on air quality. Atmospheric Pollution Research 2016, 7, (3), 547-556.
[87].Qi, L.; Chen, M.; Ge, X.; Zhang, Y.; Guo, B., Seasonal Variations and Sources of 17 Aerosol Metal Elements in Suburban Nanjing, China. Atmosphere 2016, 7, (12).
[88].Huang, L.; Chen, M.; Hu, J., Twelve-Year Trends of PM10 and Visibility in the Hefei Metropolitan Area of China. Advances in Meteorology 2016, 2016.
[89].Hu, Q.; Fu, H.; Wang, Z.; Kong, L.; Chen, M.; Chen, J., The variation of characteristics of individual particles during the haze evolution in the urban Shanghai atmosphere. Atmospheric Research 2016, 181, 95-105.
[90].Cui, F.; Chen, M.; Ma, Y.; Zheng, J.; Zhou, Y.; Li, S.; Qi, L.; Wang, L., An intensive study on aerosol optical properties and affecting factors in Nanjing, China. Journal of Environmental Sciences 2016, 40, 35-43.
[91].Cui, F.; Chen, M.; Ma, Y.; Zheng, J.; Yao, L.; Zhou, Y., Optical properties and chemical apportionment of summertime PM2.5 in the suburb of Nanjing. Journal of Atmospheric Chemistry 2016, 73, (2), 119-135.
[92].Chen, S.; Chen, M.; Wang, Z.; Qiu, W.; Wang, J.; Shen, Y.; Wang, Y.; Ge, S., Toxicological effects of chlorpyrifos on growth, enzyme activity and chlorophyll a synthesis of freshwater microalgae. Environmental Toxicology and Pharmacology 2016, 45, 179-186.
[93].Zuo, X.; Hu, J.; Chen, M., The role and fate of inorganic nitrogen species during UVA/TiO₂ disinfection. Water Research 2015, 80, 12-19.
[94].Zheng, J.; Yang, D.; Ma, Y.; Chen, M.; Cheng, J.; Li, S.; Wang, M., Development of a new corona discharge based ion source for high resolution time-of-flight chemical ionization mass spectrometer to measure gaseous H2SO4 and aerosol sulfate. Atmospheric Environment 2015, 119, 167-173.
[95].Zheng, J.; Ma, Y.; Chen, M.; Zhang, Q.; Wang, L.; Khalizov, A. F.; Yao, L.; Wang, Z.; Wang, X.; Chen, L., Measurement of atmospheric amines and ammonia using the high resolution time-of-flight chemical ionization mass spectrometry. Atmospheric Environment 2015, 102, 249-259.
[96].Xu, J.; Wu, M.; Chen, M.; Wang, Z., A one-step method for fabrication of CdMoO4-graphene composite photocatalyst and their enhanced photocatalytic properties. Powder Technology 2015, 281, 167-172.
[97].Shen, Y.; Chen, M.; Sun, T.; Jia, J., Catalytic reforming of pyrolysis tar over metallic nickel nanoparticles embedded in pyrochar. Fuel 2015, 159, 570-579.
[98].Qiu, H.; Liang, C.; Zhang, X.; Chen, M.; Zhao, Y.; Tao, T.; Xu, Z.; Liu, G., Fabrication of a Biomass-Based Hydrous Zirconium Oxide Nanocomposite for Preferable Phosphate Removal and Recovery. Acs Applied Materials & Interfaces 2015, 7, (37), 20835-20844.
[99].Hua, X.; Teng, F.; Zhao, Y.; Xu, J.; Xu, C.; Yang, Y.; Zhang, Q.; Paul, S.; Zhang, Y.; Chen, M.; Zhao, X., A new application of high-efficient silver salts-based photocatalyst under natural indoor weak light for wastewater cleaning. Water Research 2015, 81, 366-374.
[100]. Yao, L.; Ma, Y.; Wang, L.; Zheng, J.; Khalizov, A.; Chen, M.; Zhou, Y.; Qi, L.; Cui, F., Role of stabilized Criegee Intermediate in secondary organic aerosol formation from the ozonolysis of alpha-cedrene. Atmospheric Environment 2014, 94, 448-457.
[101]. Xu, J.; Chen, M.; Wang, Z., Preparation of CdWO4-deposited reduced graphene oxide and its enhanced photocatalytic properties. Dalton Transactions 2014, 43, (9), 3537-3544.

中文期刊文章
[1]陈翰祥,曾洁,陈敏东,陈志刚,季梦夏,赵君泽,夏杰祥,李华明.反应型离子液体辅助合成钒酸铁介孔纳米棒及其增强可见光光催化活性（英文）[J].催化学报,2019,40(05):744-756.
[2]令狐庚,陈敏东,连鑫博,聂东阳,陈瀚翔.新型硅氧烷离子液体的合成与酸性气体捕捉[J].环境科学与技术,2018,41(12):73-78.
[3]张星,陈敏东,高庆先,马占云.生活污水处理厂甲烷的释放通量及其影响因素[J].江西农业大学学报,2018,40(03):657-662.
[4]刘慧灵,毋赟,陈敏东,聂东阳,李文婧,张凯,葛鹏翔.南京市大气PM_(2.5)无机组分及对A549细胞的毒性效应[J].环境科学研究,2018,31(10):1736-1742.
[5]马迎慧,陈敏东,范晓龙,王毅一,亓鲁.南京市典型交通源冬季PM_(2.5)污染特征分析[J].环境科学与技术,2017,40(12):151-158.
[6]崔芬萍,陈敏东,马嫣,郑军,亓鲁.基于PASS-3的南京北郊气溶胶光学特性观测研究[J].西北师范大学学报(自然科学版),2017,53(06):47-54.
[7]范晓龙,陈敏东,马迎慧,陈超,王毅一.模拟三甘醇附着对黑碳气溶胶吸湿性的影响[J].中国环境科学,2017,37(04):1276-1282.
[8]范晓龙,陈敏东,Alexei F KHALIZOV,陈超,马迎慧,王毅一.基于三甘醇附着对黑碳气溶胶形态结构变化的模拟[J].环境化学,2017,36(04):730-737.
[9]王毅一,陈敏东,马迎慧,范晓龙.环肽纳米管的合成及应用研究进展[J].化学试剂,2017,39(02):141-147.
[10]闫子胜,陈敏东,李凤英,葛庆之.大面积种植红菱对富营养化水体修复效果的影响[J].科学技术与工程,2016,16(09):103-108.
[11]洪旭鹭,陈敏东,周军英,单正军,葛峰.毒死蜱对铜绿微囊藻的毒性效应研究[J].环境科学与技术,2015,38(10):36-40.
[12]陈敏东,郭冰芳,程格,张幸.阿尔茨海默β-淀粉样肽核心片段衍生物的合成[J].化学试剂,2015,37(10):923-928.
[13]亓鲁,陈敏东,马嫣.大气气溶胶中痕量金属元素的研究进展[J].环境监测管理与技术,2015,27(04):13-17.
[14]葛顺,汤莉莉,秦玮,丁铭,陈敏东.南京地区秋季灰霾天气特征及其水溶性离子分析[J].环境科学与技术,2015,38(02):99-104.

发明专利成果:
一种磷酸银光催化剂及其制备方法ZL2.x
一种新型巢状氧化铋光催化剂及其制备方法ZL8.5
一种新型磷酸银光催化剂及其制备方法ZL CN2.X
多枝状纳米γ-MnOOH的制备方法ZL CN4.X
一种稻草捆状氧化铜纳米催化剂的制备方法ZL6.4
一种磷酸银光催化剂的制备方法ZL CN8.0
一种稻草捆状氧化铜纳米光催化剂的制备方法ZL6.4
一种合成2-吗啉酮衍生物的方法ZL3.0
一种二氧化碳捕集装置ZL5.3
脱硫脱硝脱汞一体化装置ZL 0.X
多种环境污染物一体化脱除装置ZL CN8.9
近期科研项目:
1、颗粒物热解吸化学电离质谱仪及其数据分析方法的研发（2014DFA90780） 科技部国际合作专项，
2、大气气溶胶有机氮在线检测及其二次形成机理研究（国家基金面上**），主持
3、长三角地区细颗粒毒性组分及致毒机理研究（国家基金重大专项培育**），主持
4、含多重环肽结构单元功能分子的合成及其自组装特性（国家自然基金，**，已结题），主持
5、黑碳气溶胶对灰霾天气和区域气候的影响及控制研究（环保公益行业专项，结题，参加）
6、农药助剂环境风险评估及管理研究（环保行业公益行业专项，结题，参加）
7、地表水环境质量农药生态基准预研究（环保行业公益行业专项**，结题，参加）
8、江苏省高技术研究平台建设项目（BM**，结题），主持
9、烟气一体化脱Hg0关键技术开发与装备示范（**，结题），主持
10、环境空气质量多元观测体系构建、优化及应用 BE**，江苏省科技厅，参加
11、环境空气和废气吡啶的测定标准研究 --气-质联用测定法BZ201306，江苏省科技厅，主持
12、城市空气质量预警应急调控技术研究SBE，江苏省科技厅，参加，结题
13、TNC2010及2012年废弃物处理温室气体清单编制，发改委，参加
14、太湖红菱控藻净水工程环境绩效研究2014t005，江苏省太湖办，江苏省科技厅，主持，结题
15、离子液体超支化及树形聚合物捕获雾霾空气污染物中氮氧化物（NOx）的特性研究BK**，江苏省科技厅，主持，结题
16、基于离子液体的多晶硅副产物SiCl4回收新技术研究JH10-17，主持，结题
17、江苏省太湖流域氨氮、总磷有偿使用和交易价格研究，参加，结题
18、新型低表面能材料的设计制备**，主持，结题
19、美容美发行业超量使用化学类染发剂状况调研**，主持，结题
20、大气污染防治行动计划对二氧化碳减排的影响研究，科技部，参加，结题
21、PM2.5 和 O3 污染与前体物非线性响应机制及影响因素，2018YFC**，科技部，课题主持
22、南京及其周边地区PM2.5污染特征及其生殖毒性研究（国家基金面上**），主持



教育经历
工作经历
中国科学院兰州化学物理研究所物理化学博士研究生毕业理学博士

2003.2 2026.10
南京信息工程大学 教授 在岗




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