个人信息:
曹芳
南京信息工程大学,耶鲁大学-南信大大气环境中心
应用气象学院,教授,博士生导师
通讯地址:江苏省南京市宁六路219号,南京信息工程大学,气象楼207
联系方式:
E-mail:caofangle@163.com
QQ:176056348
个人学术主页:https://www.researchgate.net/profile/Fang_Cao8
研究方向:
环境科学、大气化学、环境化学,目前主要从事大气气溶胶的化学组分、来源等研究
教育经历:
1.2010/10–2012/10,瑞士保罗谢尔研究所,环境科学,联合培养博士研究生
2.2008/07–2012/11,中国科学院广州地球化学研究所,环境科学,博士
3.2006/09–2008/07,中国科学院广州地球化学研究所,环境科学,硕士
4.2002/09–2006/07,中国地质大学(武汉),地球化学,学士
工作经历:
1.2017/7-,南京信息工程大学,应用气象学院,教授
2.2014/10-2017/7,南京信息工程大学,应用气象学院,校聘教授
3.2013/6-2013/12,瑞士保罗谢尔研究所,博士后,合作导师:M. Schwikowski 教授
课程教学:
大气环境学(本科),大气科学概论(本科),大气化学导论(本科)
主持或参加科研项目(课题):
国家自然科学基金面上项目,中国主要背景地区含碳气溶胶分子组成和来源研究,2020/01-2023/12,在研,主持
国家自然科学基金青年项目,亚铁氧化耦合硝酸盐还原过程的氮氧同位素特征研究,2018/01-2020/12,结题,主持
国家自然科学基金重大研究计划培育项目,长三角地区细颗粒物毒性组分致肺癌表遗传机制研究,2017/01-2019/12,结题,参与
国家重点研发计划,东北哈尔滨-长春城市群大气污染联防联控技术集成与应用示范,2017/07-2020/12,在研,参与(单位负责人)
江苏省自然科学基金青年项目,南京市大气降水中黑碳颗粒物的来源和季节变化特征研究,2015/07-2018/06,结题,主持
发表论文:
[1]Mozaffar, Y. Zhang, M. Fan, F. Cao (曹芳) and Y.-C. Lin, Characteristics of summertime ambient VOCs and their contributions to O3 and SOA formation in a suburban area of Nanjing, China, Atmospheric Research, 104923, 10.1016/j.atmosres.2020.104923, 2020.
[2]Zhang, C. Yang, X. Liu, F. Cao (曹芳), Y. Y. Zhang and Y. Zhang, Insight into the photochemistry of atmospheric oxalate through hourly measurements in the northern suburbs of Nanjing, China, Science of The Total Environment, 719, 137416, https://doi.org/10.1016/j.scitotenv.2020.137416, 2020.
[3]Li, Y.-L. Zhang, F. Cao (曹芳), W. Zhang, M. Fan, X. Lee and G. Michalski, Stable Sulfur Isotopes Revealed a Major Role of Transition-Metal Ion-Catalyzed SO2 Oxidation in Haze Episodes, Environmental Science & Technology, 54, 5, 2626-2634, 10.1021/acs.est.9b07150, 2020.
[4]Han, Y. Chen, Y. Feng, W. Song, F. Cao (曹芳), Y. Zhang, Q. Li, X. Yang and J. Chen, Different formation mechanisms of PAH during wood and coal combustion under different temperatures, Atmospheric Environment, 222, 117084, https://doi.org/10.1016/j.atmosenv.2019.117084, 2020.
[5]Tong, H. Jia, R. Tian, Y. Chang, F. Cao (曹芳) and Y. Zhang, Aerosol chemical component: Simulations with WRF-Chem and comparison with observations in Nanjing, Atmospheric Environment, 218, 116982, 10.1016/j.atmosenv.2019.116982, 2019.
[6]Bhattarai, Y.-L. Zhang, C. M. Pavuluri, X. Wan, G. Wu, P. Li, F. Cao (曹芳), W. Zhang, Y. Wang, S. Kang, K. Ram, K. Kawamura, Z. Ji, D. Widory and Z. Cong, Nitrogen Speciation and Isotopic Composition of Aerosols Collected at Himalayan Forest (3326 m a.s.l.): Seasonality, Sources, and Implications, Environmental Science & Technology, 53, 21, 12247-12256, 10.1021/acs.est.9b03999, 2019.
[7]Liu, Y. Zhang, Y. Peng, L. Xu, C. Zhu, F. Cao (曹芳), X. Zhai, M. Haque, C. Yang, Y. Chang, T. Huang, Z. Xu, M. Bao, W. Zhang, M. Fan and X. Lee, Chemical and optical properties of carbonaceous aerosols in Nanjing, eastern China: regionally transported biomass burning contribution, Atmospheric Chemistry and Physics, 19, 11213-11233, 10.5194/acp-19-11213-2019, 2019.
[8]Zhang, W. Q. Zhang, F. Cao (曹芳), Y. Xiang, Y. Zhang, M. Bao, X. Liu and Y. C. Lin, High time-resolved measurement of stable carbon isotope composition in water-soluble organic aerosols: method optimization and a case study during winter haze in eastern China, Atmos. Chem. Phys., 19, 17, 11071-11087, 10.5194/acp-19-11071-2019, 2019.
[9]Fan, Y.-L. Zhang, Y. C. Lin, Y.-H. Chang, F. Cao (曹芳), W.-Q. Zhang, Y.-B. Hu, M.-Y. Bao, X.-Y. Liu, X.-Y. Zhai, X. Lin, Z.-Y. Zhao and W.-H. Song, Isotope-based source apportionment of nitrogen-containing aerosols: A case study in an industrial city in China, Atmospheric Environment, 212, 10.1016/j.atmosenv.2019.05.020, 2019.
[10]Dao, Y. C. Lin, F. Cao (曹芳), S. Y. Di, Y. H. Hong, G. H. Xing, J. J. Li, P. Q. Fu and Y. L. Zhang, Introduction to the National Aerosol Chemical Composition Monitoring Network of China: Objectives, Current Status, and Outlook, Article, Bulletin Of the American Meteorological Society, 100, 12, ES337-ES351, 10.1175/bams-d-18-0325.1, 2019.
[11]M. Haque, K. Kawamura, D. K. Deshmukh, F. Cao (曹芳), W. H. Song, M. Y. Bao and Y. L. Zhang. Characterization of organic aerosols from a Chinese Mega-City during winter: predominance of fossil fuel combustion. Atmospheric Chemistry and Physics, 19, 5147-5164, https://doi.org/10.5194/acp-19-5147-2019, 2019.
[12]Chang, Y. Zhang, C. Tian, S. Zhang, X. Ma, F. Cao (曹芳), X. Liu, W. Zhang, T. Kuhn and M. Lehmann, Nitrogen isotope fractionation during gas-to-particle conversion of NOx to NO3− in the atmosphere – implications for isotope-based NOx source apportionment, Atmospheric Chemistry and Physics, 18, 11647-11661, 10.5194/acp-18-11647-2018, 2018.
[13]Han, Y. Chen, S. Ahmad, Y. Feng, F. Zhang, W. Song, F. Cao (曹芳), Y. Zhang, X. Yang, J. Li and G. Zhang, High Time- and Size-Resolved Measurements of PM and Chemical Composition from Coal Combustion: Implications for the EC Formation Process, Environmental Science & Technology, 19, 17, 11071–11087, 10.1021/acs.est.7b05786, 2018.
[14]Cao (曹芳), Y. Zhang, L. Ren, J. Liu, J. Li, G. Zhang, D. Liu, Y. Sun, Z. Wang, Z. Shi and P. Fu, New insights into the sources and formation of carbonaceous aerosols in China: Potential applications of dual-carbon isotopes, National Science Review, 4, 804-806, 10.1093/nsr/nwx097, 2017.
[15]Cao (曹芳), S.-C. Zhang, K. Kawamura, X. Liu, C. Yang, Z. Xu, M. Fan, W. Zhang, M. Bao, Y. Chang, W. Song, S. Liu, X. Lee, J. Li, G. Zhang and Y. Zhang, Chemical characteristics of dicarboxylic acids and related organic compounds in PM2.5 during biomass-burning and non-biomass-burning seasons at a rural site of Northeast China, Environmental pollution, 231, 654-662, 10.1016/j.envpol.2017.08.045, 2017.
[16]Bao, F. Cao (曹芳), Y. Chang, Y. Zhang, Y. Gao, X. Liu, Y. Zhang, W. Zhang, T. Tang, Z. Xu, S. Liu, X. Lee, J. Li and G. Zhang, Characteristics and origins of air pollutants and carbonaceous aerosols during wintertime haze episodes at a rural site in the Yangtze River Delta, China, Atmospheric Pollution Research, 8, 5, 900-911, 10.1016/j.apr.2017.03.001, 2017.
[17]Cao (曹芳), S.-C. Zhang, K. Kawamura and Y. Zhang, Inorganic markers, carbonaceous components and stable carbon isotope from biomass burning aerosols in Northeast China, Science of The Total Environment, 572, 1244-1251, 10.1016/j.scitotenv.2015.09.099, 2016.
[18]Cao (曹芳), Y. Zhang, Tightening non-fossil emissions control: A potential opportunity for PM2.5 mitigation in China,Proceedings of the National Academy of Sciences,2015, 112, 12.
[19]Zhang and F. Cao (曹芳), Fine particulate matter (PM2.5) in China at a city level, Scientific reports, 5, 14884, 10.1038/srep14884, 2015.
[20]Gabbi, M. Huss, A. Bauder, F. Cao (曹芳), and M. Schwikowski, The impact of Saharan dust and black carbon on albedo and long-term mass balance of an Alpine glacier, The Cryosphere, 9, 1385-1400, 2015.
[21]Cao (曹芳), Y. Zhang, S. Szidat, A. Zapf, L. Wacker and M. Schwikowski, Microgram-Level Radiocarbon Determination of Carbonaceous Particles in Firn and Ice Samples: Pretreatment and OC/EC Separation, Radiocarbon, 55, 2, 383-390, 10.1017/S0033822200057507, 2013.
[22]Cao (曹芳), F. B. Li*, T. X. Liu, D. Y. Huang, C. Y. Wu, C. H. Fen, Effect of Aeromonas hydrophila on Reductive Dechlorination of DDTs by Zero-Valent Iron,Journal of Agricultural and Food Chemistry, 58, 23, 12366~12372,2010.
[23]Cao (曹芳), T. X. Liu, C. Y. Wu, F. B. Li*, X. M. Li, H. Y. Yu, Enhanced biotransformation of DDTs by an iron- and humic-reducing bacteria Aeromonas hydrophila HS01 upon addition of goethite and AQDS,Journal of Agricultural and Food Chemistry, 60, 45, 11238~11244, 2012.
[24]J. Chen#, F. Cao (曹芳)#, F. B. Li, C. S. Liu*, W. J. Wu, M. Hu, Anaerobic Transformation of DDTs Related to Biogenic Fe(II) and Microbial Community Activities in Paddy Soils,Journal of Agricultural and Food Chemistry, 61, 9, 2224~2233, 2013.
[25]Zhao, Z.-Y.; Cao, F.(曹芳)*; Fan, M.-Y.; Zhai, X.-Y.; Yu, H.-R.; Hong, Y.; Ma, Y.-J.; Zhang, Y.L., Nitrate aerosol formation and source assessment in winter at different regions in Northeast China. Atmospheric Environment 2021, 267, 118767.
[26]Yu, H.-R.; Cao, F.(曹芳); Zhang, W.-Q.; Zhao, Z.-Y.; Zhang, Y.-L., Determination of 17O Anomaly in Atmospheric Aerosol Nitrate. Chinese Journal of Analytical Chemistry 2021, 49 (2), 253-262.
[27[Song, W.; Cao, F.(曹芳); Lin, Y.-C.; Haque, M. M.; Wu, X.; Zhang, Y.; Zhang, C.; Xie, F.; Zhang, Y.-L.*, Extremely high abundance of polycyclic aromatic hydrocarbons in aerosols from a typical coal-combustion rural site in China: Size distribution, source identification and cancer risk assessment. Atmospheric Research 2021, 248 (15), 105192.
[28]Hong, Y.; Cao, F.(曹芳)*; Fan, M.-Y.; Lin, Y.-C.; Gul, C.; Yu, M.; Wu, X.; Zhai, X.; Zhang, Y.-L., Impacts of chemical degradation of levoglucosan on quantifying biomass burning contribution to carbonaceous aerosols: A case study in Northeast China. Science of The Total Environment 2021, 152007.
[29]Zhao, Z.; Cao, F.(曹芳)*; Fan, M.; Zhang, W.; Zhai, X.; Wang, Q.; Zhang, Y.-L., Coal and biomass burning as major emissions of NOX in Northeast China: Implication from dual isotopes analysis of fine nitrate aerosols. Atmospheric Environment 2020, 242.
[30]Wu, X.; Cao, F.(曹芳)*; Haque, M. M.; Fan, M.-Y.; Zhang, S.-C.; Zhang, Y.-L., Molecular composition and source apportionment of fine organic aerosols in Northeast China. Atmospheric Environment 2020, 239, 117722.
[31]Haque, M. M.; Cao, F.(曹芳); Schnelle-Kreis, J.; Abbaszade, G.; Liu, X.; Bao, M.; Zhang, W.; Zhang, Y.-L.*, Regional haze formation enhanced the atmospheric pollution levels in the Yangtze River Delta region, China: Implications for anthropogenic sources and secondary aerosol formation. Science of The Total Environment 2020, 728, 138013.
[32]Cao, F.(曹芳); Zhang, Y.; Lin, X.; Zhang, Y.-L.*, Characteristics and source apportionment of non-polar organic compounds in PM2.5 from the three megacities in Yangtze River Delta region, China. Atmospheric Research 2020, 252 (5), 105443.
[33]杨笑影,曹芳*,林煜棋,章炎麟,南京北郊降水无机离子和有机酸的化学特征及来源分析[J/OL]环境科学,13227/j.hjkx.201911049(网络首发)
[34]孟德友,曹芳*,翟晓瑶,张世春,章炎麟,长春秋季生物质燃烧对PM_(2.5)中WSOC吸光性的影响[J/OL]环境科学.https://doi.org/10.13227/j.hjkx.201911026(网络首发)
[35]张艺璇,曹芳*,郑涵,张东东,翟晓瑶,范美益,章炎麟,2017年秋季长春市5中多环芳烃的污染来源及健康风险评价[J]. 环境科学,2020, 41(2), 564-573.
[36]方言,曹芳*,范美益,章炎麟,中国东海近海岛屿冬季与夏季气溶胶中水溶性离子化学组分特征及来源解析[J]. 环境科学,2019, 41(3), 1025-1035.
[37]项妍琨, 曹芳*,杨笑影,翟晓瑶,章炎麟.利用次溴酸盐氧化结合盐酸羟胺还原法测定大气气溶胶样品铵态氮同位素[J].应用生态学报, 2019, 30(06): 1847-1853.
[38]赵祝钰,曹芳*,张雯淇,翟晓瑶,方言,范美益,章炎麟.大气气溶胶硝酸盐中稳定氮氧同位素比值测定[J].分析化学,2019,47(06):907-915.
[39]吴瑕,曹芳*,翟晓瑶,范美益,张世春,章炎麟.长春秋季细颗粒物中有机气溶胶组成特征及来源[J].环境科学,2019,40(08):3438-3446.
[40]翟晓瑶, 曹芳*,张世春,杨笑影,章炎麟.东北三江平原地区生物质燃烧对PM_(2.5)中WSOC吸光能力的影响[J].生态环境学报,2019,28(03):523-530.
[41]林昕, 曹芳*,翟晓瑶,鲍孟盈,俞绍才,王京鹏,章炎麟.中国典型城市冬季大气细颗粒物水溶性离子特征及来源分析[J].生态环境学报,2019,28(02):307-315.
[42]徐足飞, 曹芳*,高嵩,鲍孟盈,石一凡,章炎麟,刘晓妍,范美益,张雯淇,卞航,刘寿东.南京北郊秋季PM_(2.5)碳质组分污染特征及来源分析[J].环境科学,2018,39(07):3033-3041.
[43]张园园,刘寿东,曹芳,张雯淇,刘晓妍,鲍孟盈,章炎麟.南京北郊冬季典型灰霾天气气象成因及来源分析[J].科学技术与工程,2017,17(21):136-144.
[44]范美益,曹芳,张园园,鲍孟盈,刘晓妍,张雯淇,高嵩,章炎麟.徐州市冬季大气细颗粒物水溶性无机离子污染特征及来源解析[J].环境科学,2017,38(11):4478-4485.
[45]鲍孟盈,曹芳,刘寿东,刘晓妍,张园园,张雯淇,汤天然,高雅琦,章炎麟.苏州郊区主要大气污染物的演变特征及其影响因素研究[J].生态环境学报,2017,26(01):119-128.
[46]曹芳, 章炎麟, 碳质气溶胶的放射性碳同位素(14C)源解析:原理,方法和研究进展,地球科学进展,2015,30(4): 425 ~ 432