申芳霞
副教授,卓越百人人才计划,
Prof. Dr., Young Talent Program of Beihang University,
职称\职位:副教授\卓越百人
电子邮箱: fxshen@buaa.edu.cn
办公电话: 010-82314215
研究领域:大气微生物,室内环境,环境与健康
Researchareas: bioaerosols, indoor environment, environment and health
学习经历:
2008年,河南大学,环境科学理学学士学位和法学学士学位
2014年,北京大学环境科学与工程学院,环境科学理学博士学位
Education:
2014,Ph.D., Environmental Science, College of Environmental Sciences andEngineering, Peking University
2008,B.S., Environmental Science, College of Environment and Planning, HenanUniversity
工作经历:
2014.6 -2016.6年,北京工业大学,博士后
2014.7 -2016.12年,德国马克斯普朗克化学研究所,访问学者
2016.12-至今,北京航空航天大学空间与环境学院,副教授
ProfessionalExperience:
2016.12 -Present, School of Space and Environment, Beihang University, Beijing, China
2014.7 -2016.12, Department of Multiphase Chemistry, Max-Planck Institute forChemistry, Mainz, Germany
2014.6 –2016.6, College of Environmental and Energy Engineering, Beijing University ofTechnology
获奖:
2011年宝钢优秀学生特等奖
2013年上海高廷耀环保科技发展基金会青年博士生人才奖
2013年国家奖学金
2014年北京大学优秀博士毕业论文奖
2014年北京大学优秀毕业生奖
2015年日内瓦国际发明展金奖(第二获奖人)
ProfessionalRecognition:
2011: OutstandingStudent Award by Baosteel Education Foundation
2013: OutstandingYoung Ph.D. Student Scholarship by Shanghai Tongji Foundation
2013:National Scholarship for Ph.D. by Chinese Ministries of Education
2014:Excellent Doctoral Dissertation Award by Peking University
2014: OutstandingGraduate Award by Peking University
2015: GenevaInvention Gold Medal (the second inventor)
承担项目
1. 大气污染对过敏性呼吸道疾病影响的机制研究,马克斯普朗克化学研究所研究基金,2014-2016,项目负责人
2. 基于多功能纳米复合颗粒的生物气溶胶监测研究,中国博士后科学基金,5万,2015-2016,项目负责人
3. 重污染天气下室内外环境中生物气溶胶及其健康影响研究,北京市博士后基金,4万,2015-2016,项目负责人
4. 空气污染对人体呼出气组分的影响研究,朝阳区博士后基金,3万,2015-2016,项目负责人
5. 基于呼出气微生物三维指纹图的呼吸系统感染快速检测方法的研究,国家自然科学基金面上项目,90万,2015-2018,主要参与人
6. 携带正负电荷生物气溶胶的浓度、G+与G-菌种及其电荷量与基因表达机理的研究,国家自然科学基金面上项目,82万,2013-2016,主要参与人
7. 利用静电场、BioSampler和生化分析监测空气中的过敏原及毒素,国家自然科学基金面上项目,2009-2011,主要参与人
8. 利用纳米线场效应晶体管在线监测生物气溶胶,科技部“863”子课题目,114万,2008-2011,主要参与人
学术成果
一作\通讯:
1. J. Wang#, F. Shen#(Co-first author), Z. Wang, G. He, J. Qin, N. Cheng,M. Yao*, L. Li*, and X. Guo* (2014). Pointdecoration of silicon nanowires: An approach toward single-molecule electricaldetection. Angew. Chem. Int. Ed. Engl., 126, 5138 –5143
2.F.Shen#, M. Yao* (2013). AreWe Biologically Safe with Snow Precipitation? A Case Study in Beijing. PLOSONE, 8(6), e65249
3.F.Shen#, M. Tan#, H. Xu#,Z. Xu, and M. Yao* (2013). Development of a Novel Conductance-BasedTechnology for Environmental Bacterial Sensing. Chin. Sci. Bull.,58(4-5), 440-448
4. F.Shen#, K. Wei, and M. Yao*(2013). Negatively and PositivelyCharged Bacterial Aerosol Concentration and Diversity in Natural Environments.Chin. Sci. Bull., 58(26), 3169-3176
5. F.Shen#, J. Wang#, Z. Xu, Y. Wu, Q.Chen, X. Li, X. Jie, L. Li, M. Yao*,X. Guo*, and T. Zhu* (2012). Rapid Flu Diagnosis UsingSilicon Nanowire Sensor. Nano Lett., 12, 3722−3730
6. F.Shen#, M. Tan#, Z. Wang#,M. Yao*, Z. Xu, Y. Wu, J. Wang, X. Guo*, and T. Zhu*(2011). Integrating Silicon Nanowire Field Effect Transistor, Microfluidics andAir Sampling Techniques for Real-Time Monitoring Biological Aerosols. Environ.Sci. Technol., 45, 7473–7480
7. C. Xie#, F. Shen#(Co-first author), Maosheng Yao* (2011).A Novel Method for Measuring the Charge Distribution of Airborne Microbes. Aerobiologia,27,135–145
Co-author:
1.K. Wei, Z. Zou, Y. Zheng, J. Li, F. Shen, C. Wu, Y. Wu, M. Hu, M.Yao (2016). Ambient bioaerosol particle dynamics observed during haze and sunnydays in Beijing. Sci. Total Environ., 550, 751-759
2.K. Wei, Y. Zheng, J. Li, F. Shen, Z. Zou, H. Fan, X. Li, C. Wu,M. Yao (2015). Microbial aerosol characteristics in highly polluted andnear-pristine environments featuring different climatic conditions. Sci.Bull., 60 (16), 1439-1447
3. Z. Xu#, F. Shen, X. Li, Y. Wu, Q. Chen, X.Jie, M. Yao* (2012). Molecular and Microscopic Analysis of Bacteriaand Viruses in Exhaled Breath Collected Using a Simple Impaction and CondensingMethod. PLOS ONE, 7(7), e41137
4. J. Li#, M. Li, F. Shen, Z. Zou, M. Yao*and C. Wu (2013). Characterization of Biological Aerosol Exposure Risks fromAutomobile Air Conditioning System. Environ. Sci. Technol., 47,10660−10666
5. Q. Chen#, J. Li, Y.Wu, F. Shen, and M. Yao* (2013). BiologicalResponses of Gram-positive and Gram-negative Bacteria to nZVI (Fe0), Fe2+ andFe3+. RSC Adv., 3, 13835-13842
6. Z. Xu#, K. Wei, Y. Wu, F. Shen, Q. Chen, M.Li and M. Yao* (2012). Enhancing Bioaerosol Sampling by AndersenImpactors Using Mineral-Oil-Spread Agar Plate. PLOS ONE, 7(7), e41137
7. Q. Chen#, M. Gao, J. Li, F. Shen, Y. Wu, Z.Xu, and M. Yao* (2012). Inactivation and Magnetic Separation ofBacteria from Liquid Suspensions Using Electrosprayed and NonelectrosprayednZVI Particles: Observations and Mechanisms. Environ. Sci. Technol.,46(4), 2360-2367
8. Y.Liang#, Y. Wu#, K. Sun, Q. Chen, F. Shen, J. Zhang,M. Yao*, T. Zhu, and J. Fang (2012). Rapid Inactivation ofBiological Species in the Air using Atmospheric Pressure Nonthermal Plasma. Environ. Sci. Technol., 46, 3360−3368
9.Z. Xu#, Y. Wu, F. Shen,Q. Chen, M. Tan, M. Yao* (2011). Bioaerosol Science, Technology, and Engineering:Past, Present, and Future. Aerosol. Sci. Technol., 45,1337–1349
10. M. Tan#, F. Shen, M. Yao*, T.Zhu(2010). Development of an Automated Electrostatic Sampler (AES) for BioaerosolDetection. Aerosol. Sci. Technol., 45(9), 1154-1160
11. Y. Wu#, F. Shen, M. Yao* (2010).Use of Gelatin Filter and BioSampler in Detecting Airborne H5N1 Nucleotides,Bacteria and Allergens. J. Aerosol. Sci., 41, 869–879