姓 名: 蒋靖坤
所在单位: 大气污染与控制教研所
职称: 教授
职 务: 副院长
办公电话:
电子邮件: jiangjk@tsinghua.edu.cn
办公地址: 清华大学环境节能楼
教育背景2004/8 – 2008/8 圣路易斯华盛顿大学能源环境与化学工程系,博士
2002/8 – 2004/7 清华大学环境科学与工程系,硕士
1998/8 – 2002/7 清华大学环境科学与工程系,学士
工作履历2017/2-至今 清华大学环境学院 长聘教授
2014/12-至今 清华大学环境学院 博士生导师
2012/01-2017/1清华大学环境学院 副研究员、准聘和长聘副教授
2010/10 -2011/12清华大学环境科学与工程系,副研究员
2008/9 -2010/9 明尼苏达大学机械工程系,博士后
教学
2013-现在,空气质量管理(本科生课程)
2011-现在,气溶胶力学(研究生课程)
2010, 明尼苏达大学纳米技术与工程课程客座教师
2008, 圣路易斯华盛顿大学表面和胶体科学基本理论课程助教
2005, 圣路易斯华盛顿大学传递现象课程助教
学术兼职2019-至今 Editorial Board, Environmental Research
2017-2018 Technical Program Committee, 2018 International Aerosol Conference
2017-2020 Guest editor, Atmospheric Chemistry & Physics
2016-至今 Editor, Aerosol Science and Technology
2016-2019 Editorial Board, Journal of Aerosol Science
2016-至今 环境模拟与污染控制国家重点联合实验室副主任
研究领域气溶胶测量仪器开发、大气颗粒物成因、源排放颗粒物测量、颗粒物环境效益
研究概况New particle formation and growth mechanism in atmospheric environments with high aerosol loading, Samsung Global Research Program, 2019-2021
改进冷凝生长技术以提高1-3纳米大气颗粒物检测效率,基金委面上项目, 2019-2022
多尺度高时空分辨率污染物排放及变化趋势,国家重点研发计划,2018-2021
纳米颗粒物粒径分析技术,国家重点研发计划,2017-2020
大气细颗粒物暴露导致慢阻肺的暴露组学与系统生物学研究,基金委重大研究计划重点项目,2017-2020
大气颗粒有机物在线前处理及富集技术研发,国家重点研发计划,2016-2020
大气污染化学,基金委优秀青年基金项目,2015-2017;
长三角区域大气重污染事件发生特征与形成途径研究,“十二五”科技支撑项目,2014-2017;
北京市民用燃煤PM2.5排放特征研究,北京市科技新星项目,2014-2017;
多介质复合污染与控制化学,基金委创新群体项目,2013-2018;
二次细粒子粒径分布、化学组成和光学特性在线测量系统,基金委国家重大科研仪器设备研制专项,2013-2017;
烟气系统中细颗粒物的转化机制与脱除增强的机理与方法,973项目,2013-2017;
钢铁窑炉烟尘PM2.5控制技术与装备, 863项目,2013-2015
大气二次颗粒物的化学组分特征及形成机制,基金委重大项目,2012-2016;
大气新粒子的生长机制研究, 基金委青年基金项目,2012-2014;
长江三角洲地区大气灰霾特征与控制途径研究, 环保公益性行业科研项目,2010-2013;
Clusters to Nanoparticles: Implications for Atmospheric Nucleation. U.S. National Science Foundation, 2005-2010;
Growth Rates of Freshly Nucleated Particles. U.S. Department of Energy, 2007-2010;
Relationship between Phsico-chemical Characteristics and Toxicological Properties of Nanomaterials. U.S. Air Force Office of Scientific Research, 2005-2009;
Full Development of Interactive Aerosol Program. U.S. National Science Foundation, 2005-2008;
Synthesis and Application of Magnetic Nanoparticles. U.S. National Science Foundation, 2003-2007;
燃烧源可吸入颗粒物源的物理化学特征及其成因研究,973计划项目,2002-2007。
奖励与荣誉2019,中国化学会青年环境化学奖
2019,清华大学青年教师教学优秀奖
2019,清华大学先进工作者
2018,Smoluchowski award
2017,2018, 2019, 清华大学年度教学优秀奖
2016,“****奖励计划”青年学者
2016,北京市科技进步一等奖
2016,国家环境保护专业技术青年拔尖人才
2016,清华大学2015届&2016届毕业生心目中的好教师
2015,Asian Young Aerosol Scientist Award
2015,国家科技进步二等奖
2014,“****”青年拔尖人才
2014,国家优秀青年科学基金
2014,教育部科技进步一等奖
2014,北京市科技新星
2012,清华大学第五届青年教师教学大赛二等奖(理工组)
2009,A&WMA Dissertation Award
2002,清华大学优良毕业生
学术成果一、英文文章:
1. Wang, G.; Deng, J.; Zhang, Y.; Li, Y.; Ma, Z.; Hao, J.; Jiang*, J., Evaluating Airborne Condensable Particulate Matter Measurement Methods in Typical Stationary Sources in China. Environmental Science & Technology, 2020, 54: 1363-1371.
2.Wang, D.; Li, Q.; Shen, G.; Deng, J.; Zhou, W.; Hao, J.; Jiang*, J., Significant ultrafine particle emissions from residential solid fuel combustion. Science of The Total Environment, 2020, 715, 136992.
3.Cai, R. and J. Jiang*, Models for estimating nanoparticle transmission efficiency through an adverse axial electric field. Aerosol Science and Technology, 2020, 54: 332-341.
4.Cai, R., Y. Zhou, and J. Jiang*, Transmission of charged nanoparticles through the DMA adverse axial electric field and its improvement. Aerosol Science and Technology, 2020, 54: 21-32.
5.Liu, Q., D. Liu, X. Chen, Q. Zhang, J. Jiang, and D.-R. Chen, A Cost-effective, Miniature Electrical Ultrafine Particle Sizer (mini- eUPS) for Ultrafine Particle (UFP) Monitoring Network. Aerosol and Air Quality Research, 2020, 20: 231-241.
6.Zhou, Y.; Dada, L.; Liu, Y.; Fu, Y.; Kangasluoma, J.; Chan, T.; Yan, C.; Chu, B.; Daellenbach, K. R.; Bianchi, F.; Kokkonen, T. V.; Liu, Y.; Kujansuu, J.; Kerminen, V. M.; Pet?j?, T.; Wang, L.; Jiang, J.; Kulmala, M., Variation of size-segregated particle number concentrations in wintertime Beijing. Atmospheric Chemistry and Physics, 2020, 20: 1201-1216.
7.Gao, M.; Liu, Z.; Zheng, B.; Ji, D.; Sherman, P.; Song, S.; Xin, J.; Liu, C.; Wang, Y.; Zhang, Q.; Xing, J.; Jiang, J.; Wang, Z.; Carmichael, G. R.; McElroy, M. B., China's emission control strategies have suppressed unfavorable influences of climate on wintertime PM2.5 concentrations in Beijing since 2002. Atmospheric Chemistry and Physics, 2020, 20: 1497-1505.
8.Li, Z., R. Liu, C. Tang, Z. Wang, X. Chen, Y. Jiang, C. Wang, Y. Yuan, W. Wang, D. Wang, S. Chen, X. Zhang, Q. Zhang, and J. Jiang*, Cobalt Nanoparticles and Atomic Sites in Nitrogen-Doped Carbon Frameworks for Highly Sensitive Sensing of Hydrogen Peroxide. Small, 2019. in press: doi.org/10.1002/smll..
9.Wang, Y., Z. Li, C. Tang, H. Ren, Q. Zhang, M. Xue, J. Xiong, D. Wang, Q. Yu, Z. He, F. Wei, and J. Jiang*, Few-layered mesoporous graphene for high-performance toluene adsorption and regeneration. Environmental Science: Nano, 2019. 6: 3113-3122.
10.Fu, Y., M. Xue, R. Cai, J. Kangasluoma, and J. Jiang*, Theoretical and experimental analysis of the core sampling method: Reducing diffusional losses in aerosol sampling line. Aerosol Science and Technology, 2019. 53: 793-801.
11.Chen, X., J. Jiang, and D.-R. Chen, A soft X-ray unipolar charger for ultrafine particles. Journal of Aerosol Science, 2019. 133: 66-71.
12.Chen, X., J. Jiang, and D.-R. Chen, Maximizing the singly charged fraction of sub-micrometer particles using a unipolar charger. Aerosol Science and Technology, 2019. 53: 990-997.
13.Cai, S., L. Zhu, S. Wang, A. Wisthaler, Q. Li, J. Jiang, and J. Hao, Time-Resolved Intermediate-Volatility and Semivolatile Organic Compound Emissions from Household Coal Combustion in Northern China. Environmental Science & Technology, 2019. 53: 9269-9278.
14.Xu, Q., S. Wang, J. Jiang, N. Bhattarai, X. Li, X. Chang, X. Qiu, M. Zheng, Y. Hua, and J. Hao, Nitrate dominates the chemical composition of PM2.5 during haze event in Beijing, China. Science of The Total Environment, 2019. 689: 1293-1303.
15.Li, X., S. Song, W. Zhou, J. Hao, D.R. Worsnop, and J. Jiang*, Interactions between aerosol organic components and liquid water content during haze episodes in Beijing. Atmospheric Chemistry and Physics, 2019. 19: 12163-12174.
16.Ren, H., M. Xue, Z. An, and J. Jiang*, Improving thermal desorption aerosol gas chromatography using a dual-trap design. Journal of Chromatography A, 2019. 1599: 247-252.
17.Ren, H., M. Xue, Z. An, W. Zhou, and J. Jiang*, Quartz filter-based thermal desorption gas chromatography mass spectrometry for in-situ molecular level measurement of ambient organic aerosols. Journal of Chromatography A, 2019. 1589: 141-148.
18.Li, X., S. Chee, J. Hao, J. P. D. Abbatt, J. Jiang* and J. N. Smith*, Relative humidity effect on the formation of highly oxidized molecules and new particles during monoterpene oxidation. Atmospheric Chemistry and Physics, 2019, 19: 1555-1570.
19.Wang, G., Z. Ma, J. Deng, Z. Li, L. Duan, Q. Zhang, J. Hao and J. Jiang*, Characteristics of particulate matter from four coal-fired power plants with low-low temperature electrostatic precipitator in China. Science of the Total Environment, 2019, 662: 455-461.
20.Wang, W., L. Shao, J. Li, L. Chang, D. Zhang, C. Zhang and J. Jiang, Characteristics of Individual Particles Emitted from an Experimental Burning Chamber with Coal from the Lung Cancer Area of Xuanwei, China. Aerosol and Air Quality Research, 2019, 19: 355-363.
21.Wang, L., H. Cheng, D. Wang, B. Zhao, J. Zhang, L. Cheng, P. Yao, A. Di Narzo, Y. Shen, J. Yu, Y. Li, S. Xu, J. Chen, L. Fan, J. Lu, J. Jiang, Y. Zhou, C. Wang, Z. Zhang and K. Hao, Airway microbiome is associated with respiratory functions and responses to ambient particulate matter exposure. Ecotoxicology and Environmental Safety, 2019, 167: 269-277.
22.Oxford, C. R., C. M. Rapp, Y. Wang, P. Kumar, D. Watson, J. L. Portelli, E. A. Sussman, S. Dhawan, J. Jiang and B. J. Williams, Development and qualification of a VH-TDMA for the study of pure aerosols. Aerosol Science and Technology, 2019, 53: 120-132.
23.Lu, Y., C. Yan, Y. Fu, Y. Chen, Y. Liu, G. Yang, Y. Wang, F. Bianchi, B. Chu, Y. Zhou, R. Yin, R. Baalbaki, O. Garmash, C. Deng, W. Wang, Y. Liu, T. Petaja, V.-M. Kerminen, J. Jiang, M. Kulmala and L. Wang, A proxy for atmospheric daytime gaseous sulfuric acid concentration in urban Beijing. Atmospheric Chemistry and Physics, 2019, 19: 1971-1983.
24.Li, Z., H. He, H. Cao, S. Sun, W. Diao, D. Gao, P. Lu, S. Zhang, Z. Guo, M. Li, R. Liu, D. Ren, C. Liu, Y. Zhang, Z. Yang, J. Jiang and G. Zhang, Atomic Co/Ni dual sites and Co/Ni alloy nanoparticles in N-doped porous Janus-like carbon frameworks for bifunctional oxygen electrocatalysis. Applied Catalysis B: Environmental, 2019, 240: 112-121.
25.Li, Q., J. Qi, J. Jiang*, J. Wu*, L. Duan, S. Wang and J. Hao, Significant reduction in air pollutant emissions from household cooking stoves by replacing raw solid fuels with their carbonized products. Science of the Total Environment, 2019, 650: 653-660.
26.Cheng, H., L. Wang, D. Wang, J. Zhang, L. Cheng, P. Yao, Z. Zhang, A. Di Narzo, Y. Shen, J. Yu, C. Wang, L. Fan, J. Lu, J. Jiang and K. Hao, Bio(3)Air, an integrative system for monitoring individual-level air pollutant exposure with high time and spatial resolution. Ecotoxicology and Environmental Safety, 2019, 169: 756-763.
27.Cai, R., J. Jiang, S. Mirme and J. Kangasluoma, Parameters governing the performance of electrical mobility spectrometers for measuring sub-3 nm particles. Journal of Aerosol Science, 2019, 127: 102-115.
28.Wang, G., J. Deng, Z. Ma, J. Hao and J. Jiang*, Characteristics of filterable and condensable particulate matter emitted from two waste incineration power plants in China. Science of the Total Environment, 2018, 639: 695-704.
29.Moch, J. M., E. Dovrou, L. J. Mickley, F. N. Keutsch, Y. Cheng, D. J. Jacob, J. Jiang, M. Li, J. W. Munger, X. Qiao and Q. Zhang, Contribution of Hydroxymethane Sulfonate to Ambient Particulate Matter: A Potential Explanation for High Particulate Sulfur During Severe Winter Haze in Beijing. Geophysical Research Letters, 2018, 45: 11969-11979.
30.Li, Z., Y. Jiang, Z. Wang, W. Wang, Y. Yuan, X. Wu, X. Liu, M. Li, S. Dilpazir, G. Zhang, D. Wang, C. Liu and J. Jiang*, Nitrogen-rich core-shell structured particles consisting of carbonized zeolitic imidazolate frameworks and reduced graphene oxide for amperometric determination of hydrogen peroxide. Microchimica Acta, 2018, 185:501
31.Li, Z., Y. Jiang, C. Liu*, Z. Wang, Z. Cao, Y. Yuan, M. Li, Y. Wang, D. Fang, Z. Guo, D. Wang, G. Zhang and J. Jiang*, Emerging investigator series: dispersed transition metals on a nitrogen-doped carbon nanoframework for environmental hydrogen peroxide detection. Environmental Science-Nano, 2018, 5: 1834-1843.
32.Hua, Y., S. Wang, J. Jiang, W. Zhou, Q. Xu, X. Li, B. Liu, D. Zhang and M. Zheng, Characteristics and sources of aerosol pollution at a polluted rural site southwest in Beijing, China. Science of the Total Environment, 2018, 626: 519-527.
33.Cheng, Z., S. Wang, L. Qiao, H. Wang, M. Zhou, X. Fu, S. Lou, L. Luo, J. Jiang, C. Chen, X. Wang and J. Hao, Insights into extinction evolution during extreme low visibility events: Case study of Shanghai, China. Science of the Total Environment, 2018, 618: 793-803.
34.Chen, X., P. H. McMurry and J. Jiang*, Stationary characteristics in bipolar diffusion charging of aerosols: Improving the performance of electrical mobility size spectrometers. Aerosol Science and Technology, 2018, 52: 809-813.
35.Chen, X., Q. Liu, J. Jiang and D.-R. Chen, Performance of Small Plate and Tube Unipolar Particle Chargers at Low Corona Current. Aerosol and Air Quality Research, 2018, 18: 2005-2013.
36.Chen, X., Q. Liu, J. Jiang and D.-R. Chen, Performance evaluation of a circular electrical aerosol classifier (CirEAC). Journal of Aerosol Science, 2018, 118: 100-110.
37.Chen, X. J. Jiang*, Retrieving the ion mobility ratio and aerosol charge fractions for a neutralizer in real-world applications. Aerosol Science and Technology, 2018, 52: 1145-1155.
38.Cai, R., D. Yang, L. R. Ahonen, L. Shi, F. Korhonen, Y. Ma, J. Hao, T. Petaja, J. Zheng, J. Kangasluoma and J. Jiang*, Data inversion methods to determine sub-3 nm aerosol size distributions using the particle size magnifier. Atmospheric Measurement Techniques, 2018, 11: 4477-4491.
39.Cai, R., I. Chandra, D. Yang, L. Yao, Y. Fu, X. Li, Y. Lu, L. Luo, J. Hao, Y. Ma, L. Wang, J. Zheng, T. Seto and J. Jiang*, Estimating the influence of transport on aerosol size distributions during new particle formation events. Atmospheric Chemistry and Physics, 2018, 18: 16587-16599.
40.Cai, R., M. Attoui, J. Jiang, F. Korhonen, J. Hao, T. Petaja and J. Kangasluoma, Characterization of a high-resolution supercritical differential mobility analyzer at reduced flow rates. Aerosol Science and Technology, 2018, 52: 1332-1343.
41.Yu, R., L. Duan, J. Jiang* and J. Hao, An optimized two-step derivatization method for analyzing diethylene glycol ozonation products using gas chromatography and mass spectrometry. Journal of Environmental Sciences, 2017, 53: 313-321.
42.Xing, J., J. Wang, R. Mathur, S. Wang, G. Sarwar, J. Pleim, C. Hogrefe, Y. Zhang, J. Jiang, D. C. Wong and J. Hao, Impacts of aerosol direct effects on tropospheric ozone through changes in atmospheric dynamics and photolysis rates. Atmos. Chem. Phys., 2017, 17: 9869-9883.
43.Xie, Y., O. A. Fajardo, W. Yan, B. Zhao* and J. Jiang*, Six-day measurement of size-resolved indoor fluorescent bioaerosols of outdoor origin in an office. Particuology, 2017, 31: 161-169.
44.Wang, Z., Z. Wu, D. Yue, D. Shang, S. Guo, J. Sun, A. Ding, L. Wang, J. Jiang, H. Guo, J. Gao, H. C. Cheung, L. Morawska, M. Keywood and M. Hu, New particle formation in China: Current knowledge and further directions. Science of The Total Environment, 2017, 577: 258-266.
45.Wang, Y., S. Bao, S. Wang, Y. Hu, X. Shi, J. Wang, B. Zhao, J. Jiang, M. Zheng, M. Wu, A. G. Russell, Y. Wang and J. Hao, Local and regional contributions to fine particulate matter in Beijing during heavy haze episodes. Science of The Total Environment, 2017, 580: 283-296.
46.Wang, J., B. Zhao, S. Wang, F. Yang, J. Xing, L. Morawska, A. Ding, M. Kulmala, V.-M. Kerminen, J. Kujansuu, Z. Wang, D. Ding, X. Zhang, H. Wang, M. Tian, T. Pet?j?, J. Jiang and J. Hao, Particulate matter pollution over China and the effects of control policies. Science of The Total Environment, 2017, 584-585: 426-447.
47.Tang, Q., R. Cai, X. You* and J. Jiang*, Nascent soot particle size distributions down to 1 nm from a laminar premixed burner-stabilized stagnation ethylene flame. Proceedings of the Combustion Institute, 2017, 36: 993-1000.
48.Qi, J., Q. Li, J. Wu*, J. Jiang*, Z. Miao and D. Li, Biocoal Briquettes Combusted in a Household Cooking Stove: Improved Thermal Efficiencies and Reduced Pollutant Emissions. Environmental Science & Technology, 2017, 51: 1886-1892.
49.Ma, Z., Z. Li, J. Jiang, J. Deng, Y. Zhao, S. Wang and L. Duan, PM2.5 Emission Reduction by Technical Improvement in a Typical Coal-Fired Power Plant in China. Aerosol and Air Quality Research, 2017, 17: 636-643.
50.Ma, Q., S. Cai, S. Wang, B. Zhao, R. V. Martin, M. Brauer, A. Cohen, J. Jiang, W. Zhou, J. Hao, J. Frostad, M. H. Forouzanfar and R. T. Burnett, Impacts of coal burning on ambient PM2.5 pollution in China. Atmos. Chem. Phys., 2017, 17: 4477-4491.
51.Liu, D., Q. Zhang, J. Jiang and D.-R. Chen, Performance calibration of low-cost and portable particular matter (PM) sensors. Journal of Aerosol Science, 2017, 112: 1-10.
52.Li, Z., W. Wang, H. Cao, Q. Zhang, X. Zhou, D. Wang, Y. Wang, S. Zhang, G. Zhang, C. Liu, Y. Zhang, R. Liu* and J. Jiang*, Boron Doped ZIF-67@Graphene Derived Carbon Electrocatalyst for Highly Efficient Enzyme-Free Hydrogen Peroxide Biosensor. Advanced Materials Technologies, 2017, 2: n/a-n/a.
53.Li, Z., J. Jiang, Z. Ma, O. A. Fajardo, J. Deng and L. Duan, Influence of flue gas desulfurization (FGD) installations on emission characteristics of PM2.5 from coal-fired power plants equipped with selective catalytic reduction (SCR). Environmental Pollution, 2017, 230: 655-662.
54.Li, Q., J. Jiang*, S. X. Wang, K. Rumchev, R. Mead-Hunter, L. Morawska and J. M. Hao, Impacts of household coal and biomass combustion on indoor and ambient air quality in China: Current status and implication. Science of the Total Environment, 2017, 576: 347-361.
55.Jiang, L., Q. Li, D. Zhu, M. Attoui, Z. Deng, J. Tang and J. Jiang*, Comparison of nanoparticle generation by two plasma techniques: Dielectric barrier discharge and spark discharge. Aerosol Science and Technology, 2017, 51: 206-213.
56.Hu, J., P. Wang, Q. Ying, H. Zhang, J. Chen, X. Ge, X. Li, J. Jiang, S. Wang, J. Zhang, Y. Zhao and Y. Zhang, Modeling biogenic and anthropogenic secondary organic aerosol in China. Atmos. Chem. Phys., 2017, 17: 77-92.
57.Cheng, Z., X. Ma, Y. He, J. Jiang*, X. Wang, Y. Wang*, L. Sheng, J. Hu and N. Yan, Mass extinction efficiency and extinction hygroscopicity of ambient PM2.5 in urban China. Environmental Research, 2017, 156: 239-246.
58.Cai, R., D. Yang, Y. Fu, X. Wang, X. Li, Y. Ma, J. Hao, J. Zheng* and J. Jiang*, Aerosol surface area concentration: a governing factor in new particle formation in Beijing. Atmos. Chem. Phys., 2017, 17: 12327-12340.
59.Cai, R. J. Jiang*, A new balance formula to estimate new particle formation rate: reevaluating the effect of coagulation scavenging. Atmos. Chem. Phys., 2017, 17: 12659-12675.
60.Cai, R., D.-R. Chen, J. Hao and J. Jiang*, A miniature cylindrical differential mobility analyzer for sub-3 nm particle sizing. Journal of Aerosol Science, 2017, 106: 111-119.
61.Zhou, W., J. Jiang*, L. Duan and J. Hao, Evolution of Submicrometer Organic Aerosols during a Complete Residential Coal Combustion Process. Environmental Science & Technology, 2016, 50: 7861-7869.
62.Ma, Z., J. Deng, Z. Li, Q. Li, P. Zhao, L. Wang, Y. Sun, H. Zheng, L. Pan, S. Zhao, J. Jiang*, S. Wang and L. Duan*, Characteristics of NOx emission from Chinese coal-fired power plants equipped with new technologies. Atmospheric Environment, 2016, 131: 164-170.
63.Liu, J., J. Jiang*, Q. Zhang, J. Deng and J. Hao, A spectrometer for measuring particle size distributions in the range of 3 nm to 10 μm. Frontiers of Environmental Science & Engineering, 2016, 10: 63-72.
64.Li, Q., X. Li, J. Jiang*, L. Duan, S. Ge, Q. Zhang, J. Deng, S. Wang and J. Hao*, Semi-coke briquettes: towards reducing emissions of primary PM2.5, particulate carbon, and carbon monoxide from household coal combustion in China. Scientific Reports, 2016, 6: 19306.
65.Li, Q., J. Jiang*, Q. Zhang, W. Zhou, S. Cai, L. Duan, S. Ge and J. Hao, Influences of coal size, volatile matter content, and additive on primary particulate matter emissions from household stove combustion. Fuel, 2016, 182: 780-787.
66.Li, Q., J. Jiang*, J. Qi, J. Deng, D. Yang, J. Wu, L. Duan and J. Hao, Improving the Energy Efficiency of Stoves To Reduce Pollutant Emissions from Household Solid Fuel Combustion in China. Environmental Science & Technology Letters, 2016, 3: 369-374.
67.Li, Q., J. Jiang*, S. Cai, W. Zhou, S. Wang, L. Duan and J. Hao, Gaseous Ammonia Emissions from Coal and Biomass Combustion in Household Stoves with Different Combustion Efficiencies. Environmental Science & Technology Letters, 2016, 3: 98-103.
68.Hua, Y., S. Wang, J. Wang, J. Jiang, T. Zhang, Y. Song, L. Kang, W. Zhou, R. Cai, D. Wu, S. Fan, T. Wang, X. Tang, Q. Wei, F. Sun and Z. Xiao, Investigating the impact of regional transport on PM2.5 formation using vertical observation during APEC 2014 Summit in Beijing. Atmos. Chem. Phys., 2016, 16: 15451-15460.
69.Fajardo, O. A., J. Jiang* and J. Hao, Continuous Measurement of Ambient Aerosol Liquid Water Content in Beijing. Aerosol and Air Quality Research, 2016, 16: 1152-1164.
70.Chu, B., X. Zhang, Y. Liu, H. He, Y. Sun, J. Jiang, J. Li and J. Hao, Synergetic formation of secondary inorganic and organic aerosol: effect of SO2 and NH3 on particle formation and growth. Atmos. Chem. Phys., 2016, 16: 14219-14230.
71.Cheng, Z., L. Luo, S. Wang, Y. Wang, S. Sharma, H. Shimadera, X. Wang, M. Bressi, R. M. de Miranda, J. Jiang, W. Zhou, O. Fajardo, N. Yan and J. Hao, Status and characteristics of ambient PM2.5 pollution in global megacities. Environment International, 2016, 89-90: 212-221.
72.Zheng, X., Y. Wu, J. Jiang, S. Zhang, H. Liu, S. Song, Z. Li, X. Fan, L. Fu and J. Hao, Characteristics of On-road Diesel Vehicles: Black Carbon Emissions in Chinese Cities Based on Portable Emissions Measurement. Environmental Science & Technology, 2015, 49: 13492-13500.
73.Wang, Y., J. Li, H. Jing, Q. Zhang, J. Jiang and P. Biswas, Laboratory Evaluation and Calibration of Three Low-Cost Particle Sensors for Particulate Matter Measurement. Aerosol Science and Technology, 2015, 49: 1063-1077.
74.Wang, J., S. Wang, A. S. Voorhees, B. Zhao, C. Jang, J. Jiang, J. S. Fu, D. Ding, Y. Zhu and J. Hao, Assessment of short-term PM2.5-related mortality due to different emission sources in the Yangtze River Delta, China. Atmospheric Environment, 2015, 123, Part B: 440-448.
75.Wang, C., Y. Wu, J. Jiang, S. Zhang, Z. Li, X. Zheng and J. Hao, Impacts of load mass on real-world PM1 mass and number emissions from a heavy-duty diesel bus. International Journal of Environmental Science and Technology, 2015, 12: 1261-1268.
76.Li, Z., J. Jiang, Z. Ma, S. Wang and L. Duan, Effect of selective catalytic reduction (SCR) on fine particle emission from two coal-fired power plants in China. Atmospheric Environment, 2015, 120: 227-233.
77.Li, Q., J. Jiang*, L. Duan, J. Deng, L. Jiang, Z. Li and J. Hao, Improving the Removal Efficiency of Elemental Mercury by Pre-Existing Aerosol Particles in Double Dielectric Barrier Discharge Treatments. Aerosol Air Qual. Res., 2015, 15: 1506-1513.
78.Li, Q., J. Jiang* and J. Hao, A Review of Aerosol Nanoparticle Formation from Ions. Kona Powder and Particle Journal, 2015, 57-74.
79.Jiang, W., P. Liang, B. Wang, J. Fang, J. Lang, G. Tian, J. Jiang and T. F. Zhu, Optimized DNA extraction and metagenomic sequencing of airborne microbial communities. Nature Protocols, 2015, 10: 768.
80.Jiang*, J., W. Zhou, Z. Cheng, S. Wang, K. He and J. Hao, Particulate Matter Distributions in China during a Winter Period with Frequent Pollution Episodes (January 2013). Aerosol and Air Quality Research, 2015, 15: 494-503.
81.Hua, Y., Z. Cheng, S. Wang, J. Jiang, D. Chen, S. Cai, X. Fu, Q. Fu, C. Chen, B. Xu and J. Yu, Characteristics and source apportionment of PM2.5 during a fall heavy haze episode in the Yangtze River Delta of China. Atmospheric Environment, 2015, 123: 380-391.
82.Cheng, Z., J. Jiang*, C. Chen, J. Gao, S. Wang*, J. G. Watson, H. Wang, J. Deng, B. Wang, M. Zhou, J. C. Chow, M. L. Pitchford and J. Hao, Estimation of Aerosol Mass Scattering Efficiencies under High Mass Loading: Case Study for the Megacity of Shanghai, China. Environmental Science & Technology, 2015, 49: 831–838.
83.Wang, Y., Q. Zhang, J. Jiang, W. Zhou, B. Wang, K. He, F. Duan, Q. Zhang, S. Philip and Y. Xie, Enhanced sulfate formation during China's severe winter haze episode in January 2013 missing from current models. Journal of Geophysical Research: Atmospheres, 2014, 119: 2013JD021426.
84.Wang, J. D., S. X. Wang, J. Jiang, A. J. Ding, M. Zheng, B. Zhao, D. C. Wong, W. Zhou, G. J. Zheng, L. Wang, J. E. Pleim and J. M. Hao, Impact of aerosol-meteorology interactions on fine particle pollution during China's severe haze episode in January 2013. Environmental Research Letters, 2014, 9: 094002.
85.Liu, J., D. Fung, J. Jiang* and Y. Zhu*, Ultrafine particle emissions from essential-oil-based mosquito repellent products. Indoor Air, 2014, 24: 327-335.
86.Jiang*, J., C. Kim, X. Wang, M. R. Stolzenburg, S. L. Kaufman, C. Qi, G. J. Sem, H. Sakurai, N. Hama and P. H. McMurry, Aerosol Charge Fractions Downstream of Six Bipolar Chargers: Effects of Ion Source, Source Activity, and Flowrate. Aerosol Science and Technology, 2014, 48: 1207-1216.
87.Chu, B. W., K. Wang, H. Takekawa, J. H. Li, W. Zhou, J. Jiang, Q. X. Ma, H. He and J. M. Hao, Hygroscopicity of particles generated from photooxidation of alpha-pinene under different oxidation conditions in the presence of sulfate seed aerosols. Journal of Environmental Sciences-China, 2014, 26: 129-139.
88.Chu, B., Y. Liu, J. Li, H. Takekawa, J. Liggio, S.-M. Li, J. Jiang, J. Hao and H. He, Decreasing effect and mechanism of FeSO4 seed particles on secondary organic aerosol in α-pinene photooxidation. Environmental Pollution, 2014, 193: 88-93.
89.Cheng, Z., S. Wang, X. Fu, J. G. Watson, J. Jiang, Q. Fu, C. Chen, B. Xu, J. Yu, J. C. Chow and J. Hao, Impact of biomass burning on haze pollution in the Yangtze River delta, China: a case study in summer 2011. Atmospheric Chemistry and Physics, 2014, 14: 4573-4585.
90.Cao, C., W. Jiang, B. Wang, J. Fang, J. Lang, G. Tian*, J. Jiang* and T. F. Zhu*, Inhalable Microorganisms in Beijing’s PM2.5 and PM10 Pollutants during a Severe Smog Event. Environmental Science & Technology, 2014, 48: 1499-1507.
91.Fajardo, O. A., J. Jiang* and J. Hao*, Assessing Young People’s Preferences in Urban Visibility in Beijing. Aerosol and Air Quality Research, 2013, 13: 1536-1543.
92.Chu, B., J. Hao, J. Li, H. Takekawa, K. Wang and J. Jiang, Effects of two transition metal sulfate salts on secondary organic aerosol formation in toluene/NOx photooxidation. Frontiers of Environmental Science & Engineering, 2013, 7: 1-9.
93.Cheng, Z., S. Wang, J. Jiang, Q. Fu, C. Chen, B. Xu, J. Yu, X. Fu and J. Hao, Long-term trend of haze pollution and impact of particulate matter in the Yangtze River Delta, China. Environmental Pollution, 2013, 182: 101-110.
94.Cheng, Z., J. Jiang*, O. Fajardo, S. Wang and J. Hao*, Characteristics and health impacts of particulate matter pollution in China (2001–2011). Atmospheric Environment, 2013, 65: 186-194.
95.Zhang, H., S. Wang, J. Hao, L. Wan, J. Jiang, M. Zhang, H. E. S. Mestl, L. W. H. Alnes, K. Aunan and A. W. Mellouki, Chemical and size characterization of particles emitted from the burning of coal and wood in rural households in Guizhou, China. Atmospheric Environment, 2012, 51: 94-99.
96.Zhang, H., J. Li, Q. Ying, J. Z. Yu, D. Wu, Y. Cheng, K. He and J. Jiang, Source apportionment of PM2.5 nitrate and sulfate in China using a source-oriented chemical transport model. Atmospheric Environment, 2012, 62: 228-242.
97.Wiedensohler, A., W. Birmili, A. Nowak, A. Sonntag, K. Weinhold, M. Merkel, B. Wehner, T. Tuch, S. Pfeifer, M. Fiebig, A. M. Fjaraa, E. Asmi, K. Sellegri, R. Depuy, H. Venzac, P. Villani, P. Laj, P. Aalto, J. A. Ogren, E. Swietlicki, P. Williams, P. Roldin, P. Quincey, C. Huglin, R. Fierz-Schmidhauser, M. Gysel, E. Weingartner, F. Riccobono, S. Santos, C. Gruning, K. Faloon, D. Beddows, R. Harrison, C. Monahan, S. G. Jennings, C. D. O'Dowd, A. Marinoni, H. G. Horn, L. Keck, J. Jiang, J. Scheckman, P. H. McMurry, Z. Deng, C. S. Zhao, M. Moerman, B. Henzing, G. de Leeuw, G. Loschau and S. Bastian, Mobility particle size spectrometers: harmonization of technical standards and data structure to facilitate high quality long-term observations of atmospheric particle number size distributions. Atmospheric Measurement Techniques, 2012, 5: 657-685.
98.Song, S., Y. Wu, J. Jiang, L. Yang, Y. Cheng and J. Hao, Chemical characteristics of size-resolved PM2.5 at a roadside environment in Beijing, China. Environmental Pollution, 2012, 161: 215-221.
99.Han, X., N. Corson, P. Wade-Mercer, R. Gelein, J. Jiang, M. Sahu, P. Biswas, J. N. Finkelstein, A. Elder and G. Oberd?rster, Assessing the relevance of in vitro studies in nanotoxicology by examining correlations between in vitro and in vivo data. Toxicology, 2012, 297: 1-9.
100.Chu, B., J. Hao, H. Takekawa, J. Li, K. Wang and J. Jiang, The remarkable effect of FeSO4 seed aerosols on secondary organic aerosol formation from photooxidation of α-pinene/NOx and toluene/NOx. Atmospheric Environment, 2012, 55: 26-34.
101.Chen, M., M. Titcombe, J. Jiang, C. Jen, C. Kuang, M. L. Fischer, F. L. Eisele, J. I. Siepmann, D. R. Hanson, J. Zhao and P. H. McMurry, Acid-base chemical reaction model for nucleation rates in the polluted atmospheric boundary layer. Proceedings of the National Academy of Sciences of the United States of America, 2012, 109: 18713-18718.
102.Suttiponparnit, K., J. Jiang, M. Sahu, S. Suvachittanont, T. Charinpanitkul and P. Biswas, Role of Surface Area, Primary Particle Size, and Crystal Phase on Titanium Dioxide Nanoparticle Dispersion Properties. Nanoscale Research Letters, 2011, 6:
103.Jiang*, J., J. Zhao, M. Chen, F. L. Eisele, J. Scheckman, B. J. Williams, C. Kuang and P. H. McMurry, First Measurements of Neutral Atmospheric Cluster and 1–2 nm Particle Number Size Distributions During Nucleation Events. Aerosol Science and Technology, 2011, 45: ii-v.
104.Jiang*, J., M. Chen, C. Kuang, M. Attoui and P. H. McMurry, Electrical Mobility Spectrometer Using a Diethylene Glycol Condensation Particle Counter for Measurement of Aerosol Size Distributions Down to 1 nm. Aerosol Science and Technology, 2011, 45: 510 - 521.
105.Jiang, J., M. Attoui, M. Heim, N. A. Brunelli, P. H. McMurry, G. Kasper, R. C. Flagan, K. Giapis and G. Mouret, Transfer Functions and Penetrations of Five Differential Mobility Analyzers for Sub-2 nm Particle Classification. Aerosol Science and Technology, 2011, 45: 480 - 492.
106.Hanson, D. R., P. H. McMurry, J. Jiang, D. Tanner and L. G. Huey, Ambient Pressure Proton Transfer Mass Spectrometry: Detection of Amines and Ammonia. Environmental Science & Technology, 2011, 45: 8881-8888.
107.Han, X., R. Gelein, N. Corson, P. Wade-Mercer, J. Jiang, P. Biswas, J. N. Finkelstein, A. Elder and G. Oberd?rster, Validation of an LDH assay for assessing nanoparticle toxicity. Toxicology, 2011, 287: 99-104.
108.Rushton, E. K., J. Jiang, S. S. Leonard, S. Eberly, V. Castranova, P. Biswas, A. Elder, X. Han, R. Gelein, J. Finkelstein and G. Oberdorster, Concept of Assessing Nanoparticle Hazards Considering Nanoparticle Dosemetric and Chemical/Biological Response Metrics. Journal of Toxicology and Environmental Health, Part A, 2010, 73: 445 - 461.
109.Jiang, J., G. Oberd?rster and P. Biswas, Characterization of size, surface charge, and agglomeration state of nanoparticle dispersions for toxicological studies. Journal of Nanoparticle Research, 2009, 11: 77-89.
110.Dhumal, S. Y., T. L. Daulton, J. Jiang, B. Khomami and P. Biswas, Synthesis of visible light-active nanostructured TiOx (x < 2) photocatalysts in a flame aerosol reactor. Applied Catalysis B: Environmental, 2009, 86: 145-151.
111.Braydich-Stolle, L. K., N. M. Schaeublin, R. C. Murdock, J. Jiang, P. Biswas, J. J. Schlager and S. M. Hussain, Crystal structure mediates mode of cell death in TiO2 nanotoxicity. Journal of Nanoparticle Research, 2009, 11: 1361-1374.
112.Worathanakul, P., J. Jiang, P. Biswas and P. Kongkachuichay, Quench-Ring Assisted Flame Synthesis of SiO2-TiO2 Nanostructured Composite. Journal of Nanoscience and Nanotechnology, 2008, 8: 6253-6259.
113.Tiwari, V., J. Jiang, V. Sethi and P. Biswas, One-step synthesis of noble metal-titanium dioxide nanocomposites in a flame aerosol reactor. Applied Catalysis A: General, 2008, 345: 241-246.
114.Suriyawong, A., C. J. Hogan, J. Jiang and P. Biswas, Charged fraction and electrostatic collection of ultrafine and submicrometer particles formed during O2-CO2 coal combustion. Fuel, 2008, 87: 673-682.
115.Jiang, J., G. Oberd?rster, A. Elder, R. Gelein, P. Mercer and P. Biswas, Does nanoparticle activity depend upon size and crystal phase? Nanotoxicology, 2008, 2: 33 - 42.
116.Jiang, J., M. H. Lee and P. Biswas, Model for nanoparticle charging by diffusion, direct photoionization, and thermionization mechanisms. Journal of Electrostatics, 2007, 65: 209-220.
117.Jiang, J., C. J. Hogan, D. R. Chen and P. Biswas, Aerosol charging and capture in the nanoparticle size range (6-15 nm) by direct photoionization and diffusion mechanisms. Journal of Applied Physics, 2007, 102: 034904.
118.Jiang, J., D. R. Chen and P. Biswas, Synthesis of nanoparticles in a flame aerosol reactor with independent and strict control of their size, crystal phase and morphology. Nanotechnology, 2007, 18: 285603.
119.Wu, Y., S. X. Wang, D. G. Streets, J. M. Hao, M. Chan and J. Jiang, Trends in anthropogenic mercury emissions in China from 1995 to 2003. Environmental Science & Technology, 2006, 40: 5312-5318.
120.Streets, D. G., J. M. Hao, Y. Wu, J. Jiang, M. Chan, H. Z. Tian and X. B. Feng, Anthropogenic mercury emissions in China. Atmospheric Environment, 2005, 39: 7789-7806.
二、中文文章:
1.楚碧武, 马庆鑫, 段凤魁, 马金珠, 蒋靖坤, 贺克斌, 贺泓. 大气“霾化学”:概念提出和研究展望. 化学进展, 2020, 32: 1-4.
2.蒋靖坤*,邓建国,王刚,张莹,李妍菁,段雷,郝吉明.固定污染源可凝结颗粒物测量方法.环境科学, 2019, 40(12): 5234-5239.
3.王东滨, 郝吉明, 蒋靖坤*. 民用固体燃料燃烧超细颗粒物排放及其潜在健康影响. 科学通报, 2019, 64: 3429.
4.薛墨,傅月芸,蔡润龙,蒋靖坤*,郝吉明.1~3 nm颗粒物在粒径分布测量仪中的通过效率研究.环境科学学报,2019,39(9):2896-2902.
5.邓建国,马子轸,李振,段雷,蒋靖坤*.不同湿法脱硫工艺对燃煤电厂PM2.5排放的影响.环境科学,2019,40(8):3457-3462.
6.袁艺,李泽晖,王亚玲,刘星辰,吴晓雪,蒋靖坤*.金属-有机骨架材料对环境中典型苯系物的吸附研究进展.化工新型材料,2019,47(8):18-22.
7.秦瑜, 李泽晖, 王亚玲, 王东滨, 蒋靖坤*. "石墨烯基电化学生物传感器检测环境中过氧化氢的研究进展." 化工新型材料, 2019, 47 :1-7.
8.姚群, 柳静献, 蒋靖坤. "钢铁窑炉烟尘细颗粒物超低排放技术与装备." 中国环保产业, 2018, 6: 39 – 43.
9.武亚凤, 陈建华, 蒋靖坤, 邓建国, 马子珍, 钟连红. "燃煤电厂细颗粒物排放粒径分布特征." 环境科学研究, 2017, 30(8): 1174-1183.
10.刘慧琳, 陈志明, 黄炯丽, 蒋靖坤, 张强, 李宏姣, 梁桂云, 杨俊超, 张达标,莫招育. "利用3 nm~20 μm颗粒物粒径分布测量仪对南宁市大气颗粒物粒径分布特征进行研究." 环境科学学报, 2017, 37(12): 4467-4475.
11.刘慧琳, 陈志明, 李宏姣, 蒋靖坤, 张强, 黄炯丽, 毛敬英, 梁桂云, 杨俊超,张达标, 莫招育. "南宁市一次污染过程大气颗粒物理化特性及来源." 环境科学, 2017, 38(11): 4486-4493.
12.闫威卓, 王步英, Oscar Fajardo, 蒋靖坤*, 郝吉明. "北偏西大风对北京冬季生物气溶胶的影响." 环境科学, 2017, 38(9): 3561-3568.
13.李晓晓, 张强, 邓建国, 蒋靖坤*, 郝吉明. "用于滤膜称重的饱和氯化镁溶液恒湿系统搭建与评估." 环境科学, 2017, 38(8): 3095-3101.
14.李庆, 段雷, 蒋靖坤*, 王书肖, 郝吉明. "我国民用燃煤一次颗粒物的减排潜力研究." 中国电机工程学报, 2016, 16: 4408-4414
15.樊筱筱, 蒋靖坤*, 吴烨, 张强, 李振华, 段雷. "不同稀释条件与测量技术下缸内直喷汽车排放颗粒物数浓度和粒径分布特征." 中国电机工程学报,2016, 16
16.赵承美, 邵龙义, 蒋靖坤, 段雷, 李庆, 王文华. "民用煤燃烧排放PM2.5的微观形貌和化学组分." 中国电机工程学报,2016, 16
17.樊筱筱, 蒋靖坤*, 张强, 李振华, 何立强, 吴烨, 胡京南, 郝吉明. "轻型汽油车排放颗粒物数浓度和粒径分布特征." 环境科学,2016, 37(10): 3743-3749
18.蒋靖坤*, 邓建国, 李振, 马子轸, 周伟, 张强, 段雷, 郝吉明. "双级虚拟撞击采样器应用于固定污染源PM10和PM2.5排放测量." 环境科学,2016, 37(6): 2003-2007
19.张琦, 李庆, 蒋靖坤*, 邓建国, 段雷, 郝吉明. "一套民用固体燃料燃烧大气污染物排放测试系统的搭建和评测." 环境科学学报,2016,36:3393-3399
20.陈小彤, 蒋靖坤*, 邓建国, 李庆, 段雷,郝吉明. "一种气溶胶测量仪器标定系统的设计及性能评估." 环境科学,2016, 37(3): 789-794
21.马子轸, 李振, 蒋靖坤, 叶芝祥, 邓建国, 段雷. "燃煤电厂产生和排放的PM2.5中水溶性离子特征." 环境科学, 2015, 36(7):2361-2366
22.王步英, 郎继东, 张丽娜, 方剑火, 曹晨, 郝吉明, 朱听, 田埂*, 蒋靖坤*. "基于16S rRNA基因测序法分析的北京霾污染过程PM2.5和PM10中细菌群落特征." 环境科学, 2015, 36(8): 2727-2734
23.李兴华, 曹阳, 蒋靖坤, 段雷, 邓建国, 张强, 韩军赞. "固定源PM2.5稀释采样器的研制." 环境科学学报, 2015, 10: 3309-3315
24.段雷, 马子轸, 李振, 蒋靖坤, 叶芝祥. "燃煤电厂排放细颗粒物的水溶性无机离子特征综述." 环境科学, 2015, 36(3): 1117-1122
25.蒋靖坤*, 邓建国, 段雷, 张强, 李振, 陈小彤, 李兴华, 郝吉明. "基于虚拟撞击原理的固定源PM10/PM2.5采样器的研制." 环境科学, 2014, 35(10): 3639-3643.
26.蒋靖坤*, 邓建国, 李振, 李兴华, 段雷, 郝吉明. "固定污染源排气中PM2. 5采样方法综述." 环境科学, 2014,35(5): 2018-2024.
27.麦华俊, 蒋靖坤*, 何正旭, 郝吉明. "一种纳米气溶胶发生系统的设计及性能测试." 环境科学, 2013,34: 2950-2954
28.宋少洁, 吴烨, 蒋靖坤, 杨柳, 郝吉明. "北京市典型道路交通环境细颗粒物元素组成及分布特征." 环境科学学报, 2012,32: 66-73.
29.王书肖, 刘敏,蒋靖坤, 郝吉明, 吴烨, David G.Streets. "中国非燃煤大气汞排放量估算." 环境科学, 2006, 27: 2401-2406.
30.蒋靖坤, 郝吉明, 吴烨, David G. Streets, 段雷, 田贺忠. "中国燃煤汞排放清单的初步建立." 环境科学, 2005, 26: 34-39.
已毕业学生
蔡润龙,2019,University of Helsinki,博士后
陈小彤,2019,全球能源互联网集团,工作
薛墨,2019,深圳麦克韦尔股份有限公司,工作
傅月芸,2019,宝洁中国,工作
王刚,2019,中国石油大学(华东),副教授
任海霞,2019,EPC Natural Products Co., 工作
王亚玲,2019,北京市环境科学研究院,工作
李雨阳,2019,清华大学环境学院,读博
李怡然,2019,清华大学环境学院,读博
姜月,2019,清华大学环境学院,工作
张晨翀,2017,Washington University in St. Louis,读博
赵天宁,2017,Harvard University,读博
李振,2017,Virginia Commonwealth University, 博士后
闫威卓,2017,中冶节能环保有限责任公司,工作
吴欣尔,2017,清华大学环境学院,读硕
王浩,2017,清华大学环境学院,读博
李妍菁,2017,清华大学深圳研究生院,读硕
周伟,2017,北京雪迪龙科技股份有限公司,工作
Oscar Farjardo, 2016, Universidad Central, 副教授
李庆,2016,复旦大学,青年研究员
王宏恩,2016,Casella公司,工作
Marie Larivoire, 2016, mc2i groupe, 工作
樊筱筱,2016,深圳市高新投集团有限公司,工作
姜仑,2016,UC Berkeley,读硕
于然,2015,同方集团,工作
王步英,2015,北京市环境保护监测中心,工作
张琦,2015,Stanford University,读硕
刘洁琼,2014,西北设计院,工作
李佳育,2014,Washington University in St. Louis, 读博
李晨曦,2014,University of Minnesota,读博
麦华俊,2013,Caltech,读博
刘俊,2013,UC San Diego,读博
吕晓佟,2013,Virginia Tech, 读博
骆锋,2012,道达尔集团(TOTAL),工作
何正旭,2012,清华大学地学中心,读硕
彭来,2011,北京大学光华管理学院,读硕
(研究组长期招收本科生、研究生、博士后和科研助理,请联系jiangjk@tsinghua.edu.cn)
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清华大学环境学院导师教师师资介绍简介-蒋靖坤
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相关话题/清华大学 环境学院
清华大学环境学院导师教师师资介绍简介-李俊华
姓 名: 李俊华 所在单位: 大气污染控制教研所 职 称: 教授 职 务: 烟气多污染物控制技术与装备国家工程实验室主任 邮寄地址: 北京清华大学环境学院 100084 办公电话: ** 电子邮件: lijunhua@tsinghua.edu.cn 办公地点: 环境节能楼601房间 教育背景1988.9 1992.7 吉林大学化学系物理化学 学士1994 ...清华大学考研导师 本站小编 Free考研考试 2020-04-14清华大学学位评定委员会2019年第三次全体会议举行
清华大学学位评定委员会2019年第三次全体会议举行清华新闻网7月7日电7月3日,清华大学学位评定委员会2019年第三次全体会议在主楼接待厅举行。校长、校学位评定委员会主席邱勇主持会议并讲话,副校长、校学位评定委员会副主席杨斌,副校长尤政出席会议。邱勇讲话李派摄邱勇在讲话中指出,学校在持续完善人才评价 ...清华大学通知公告 本站小编 Free考研 2020-04-14清华大学2019年本科生毕业典礼举行
清华大学2019年本科生毕业典礼举行校长邱勇寄语毕业生:扬自强之精神做中流之砥柱清华新闻网7月7日电(记者吕婷摄影李派石加东杨思维尹浜兆乔玥涵刘麓成白云柯殷雪琪张科)7月7日上午,清华大学2019年本科生毕业典礼暨学位授予仪式在东大操场举行。校领导邱勇、陈旭、姜胜耀、薛其坤、吉俊民、李一兵、尤政、过 ...清华大学通知公告 本站小编 Free考研 2020-04-14清华大学环境学院导师教师师资介绍简介-刘欢
姓 名 刘欢 所在单位 大气污染控制教研所 职 称 博士生导师,长聘副教授(特别研究员) 办公电话 电子邮件 liu_env@tsinghua.edu.cn 办公地点 北京市清华大学中意环境节能楼602室开放交流时间:周四15:00-17:00 招生信息 博士研究生:每年招收1-2名博士生(2020年9月入学博士生已招满)硕士及本科生:欢迎优秀本科生加入课题组(SRT正在接受报名)专业要求:大气科 ...清华大学考研导师 本站小编 Free考研考试 2020-04-14清华大学环境学院导师教师师资介绍简介-彭悦
姓 名 彭悦 所在单位 大气污染与控制教研所 职 称 副高级 邮寄地址 清华大学环境学院,100084 办公地点 清华大学中意环境节能楼602 电 话 电子邮件 pengyue83@tsinghua.edu.cn 教育背景20092012 吉林大学 物理学院 博士20062009 吉林大学 原子分子物理研究所 硕士 工作履 ...清华大学考研导师 本站小编 Free考研考试 2020-04-14清华大学环境学院导师教师师资介绍简介-马永亮
姓 名: 马永亮 所在单位: 大气污染控制教研所 职 称: 副高级 邮寄地址: 北京市海淀区清华大学环境学院 办公电话: 电子邮件: liang@tsinghua.edu.cn ...清华大学考研导师 本站小编 Free考研考试 2020-04-14清华大学环境学院导师教师师资介绍简介-吴清茹
姓名: 吴清茹 所在单位: 大气污染与控制教研所 职称: 助理研究员 办公电话: 电子邮件: qrwu@tsinghua.edu.cn 办公地址: 清华大学环境节能楼 教育背景2010年9月-2015年7月 清华大学 环境学院 环境工程专业 博士2006年9月-2010年7月 清华大学 环境学院 环境工程专业 学士 工作履历2018年3月-今 清华大学 ...清华大学考研导师 本站小编 Free考研考试 2020-04-14清华大学环境学院导师教师师资介绍简介-王书肖
姓 名: 王书肖 所在单位: 大气污染与控制教研所 职 称: 教授/研究员 职 务: 国家环境保护大气复合污染来源与控制重点实验室主任 邮寄地址: 清华大学环境学院 办公电话: ** 电子邮件: shxwang@tsinghua.edu.cn 办公地点: 清华大学环境楼 教育背景1991.9至1995.7 天津大学 化学工程系工学学士1995.9至1998.3 天津大 ...清华大学考研导师 本站小编 Free考研考试 2020-04-14清华大学环境学院导师教师师资介绍简介-吴烨
姓 名: 吴 烨 所在单位: 大气污染控制教研所 职 称: 教授/研究员 职务: 副院长 邮寄地址: 北京清华大学环境学院 100084 办公电话: 电子邮件: ywu@mail.tsinghua.edu.cn 办公地点: 环境节能楼631室 教育背景1993.09 - 1998.07 清华大学环境科学与工程系 给水排水专业, 学士1998.09 - 2002.09 清 ...清华大学考研导师 本站小编 Free考研考试 2020-04-14清华大学环境学院导师教师师资介绍简介-张少君
姓名 张少君 单位 大气污染与控制教研所 职称 助理教授、博士生导师 办公地址 清华大学华业大厦2504C 电话/传真 电子邮箱 zhsjun@tsinghua.edu.cn 教育背景2005.8 2009.7 清华大学环境学院,环境工程专业,学士2009.8 2014.7 清华大学环境学院,环境工程专业,博士 工作履历 ...清华大学考研导师 本站小编 Free考研考试 2020-04-14