個人簡歷

教育簡歷

• 2014-2016，德國萊布尼茲對流層研究所（TROPOS）大氣化學系，訪問學者

• 2008-2009，加拿大 University of Waterloo，化學系，博士後

• 2003-2006，南京大學，環境學院↕️👐🏻，博士

工作簡歷

• 2016.12-至今，    沐鸣2平台👩‍🦳♞，環境與科學工程系，教授

• 2011.09-2016.12   沐鸣2平台，環境與科學工程系，副教授

• 2006.08-2011.09   沐鸣2平台，環境與科學工程系，講師

博士生導師/方向

• 大氣化學。主要研究內容為大氣VOCs及相關儀器分析，基於VOCs直接觀測和動力學模擬等研究手段🙅🏽，關註典型城市環境中大氣VOCs的來源和轉化以及相應大氣化學機理的研發🫑，致力於從化學的角度解讀區域大氣O3與PM2.5復合汙染的形成機理，為區域二次汙染防控提供科技支撐👱🏼‍♂️。進一步拓展有機質譜分析人呼出氣中VOCs生物標誌物篩查新方法，構建呼氣VOCs與人體心肺和代謝疾病的關聯，推進其在疾病無損診斷、環境健康等研究中轉化應用🧓。

學術兼職

• 海浦東新區科學技術專家、中國化學會會員、中國環境科學學會會員🙆🏿‍♂️、美國ACS會員等🧑🏿‍⚖️☃️。《J. Geophys. Res.: Atmos.》、《Environ. Sci. &Technol.》、《Sci. Total Environ.》、《Environ. Pollut.》、《Atmos. Chem. Phys.》🕥、《J. Environ. Sci.》等期刊評審人🏺。

榮譽與獎勵

• 2014年🆕，第八屆“上汽教育杯”一等獎

• 2013年，臺灣“東元科教基金會-綠色能源主題”國際賽季軍

• 2012年，霧化學研究成果還被被評為 “2011年度上海十大科技進展”之一🤽🏻👩‍👩‍👧‍👧。

• 2012年🧚🏿，年獲得“第八屆青年科技獎”。

人才培養

本科生課程：

• 《環境分析化學》

研究生課程：

• 《環境分析技術》🧓🏿、《大氣氣溶膠科學與技術》

科學研究

主持和參與的主要項目/課題

1. 國家自然科學基金—國際合作(中德)重點項目：42061134006，長三角地區大氣臭氧與細顆粒物的耦合機製及調控研究，2021.01—2023.12，300萬元，在研，主持

2. 國家自然科學基金：大氣顆粒物氧化潛勢的形成機製研究（No. 21876029），2019.01—2022.12，66萬元，在研，主持

3. 國家自然科學基金重大研究計劃集成項目♡：大氣細顆粒物毒性組分甄別研究（No. 91843301）♙⚪️，2019.01—2021.12，100/1250萬元 （課題經費），在研😲，課題主持

4. 嘉峪關市生態環境局👋🏻：“嘉峪關市大氣汙染成因分析及對策研究項目”， 2019.12—2021.03😪，236萬元，在研，主持

5. 沐鸣2平台雙一流原創科研個性化支持項目：呼氣VOCs在無損化診斷中的新範式研究⁉️🚬，2021.04—2021.12🙋🏽‍♂️，90萬元，在研，主持

6. 酒泉市生態環境局：酒泉市顆粒物PM10來源解析及PM2.5、O3汙染特征研究，2019.01—2020.12🥩，129.8萬元📘➙，已結題🏋️‍♂️，主持

7. 國家自然科學基金🚵🏽‍♂️：大氣糖類有機物在霧霾過程中的行為與機製研究（No. 21577021）🤽🏽‍♂️，2016.01—2019.12，68萬元，已結題，主持

8. 國家自然科學基金🧖🏻‍♀️：半揮發性有機物在大氣細顆粒物老化過程中的理化行為（No. 21377028），2014—2017，85萬元，已結題，主持

9. 國家自然科學基金：汙染大氣半揮發性有機物（SVOCs）相轉化機製研究（No. 21177025），2012—2015🧑‍🍼，65萬元，已結題，主持

10. 國家自然科學基金：大氣汙染物誘導植物釋放VOCs特征研究（No. 40705045）⛷，2008—2010🧑‍🦽，20萬元👰‍♀️，已結題𓀔，主持

11. 上海市優秀學科帶頭人計劃，14XD1400600💁‍♂️，大氣氣溶膠的物理化學性質及其環境效應，2014—2017，40萬元 （課題經費主持），已結題

12. 教育部博士點基金：大氣汙染物脅迫城市植物研究（No. 20070246029）， 2008—2010；已結題，主持

13. 入選第二批沐鸣2平台“卓學計劃”🤌🏼🧹， 2013—2015；已結題💂🏿‍♀️，主持

14. Agilent university research grant（海外捐贈）：Research on the Organic Composition of Fogs / Hazes by Comprehensive GC×GC with SPME，2013—2014；已結題🦽，主持

15. Agilent university research grant（海外捐贈）：Needle trap Devices and SPME Design for Flow Modulated Comprehensive Two-Dimensional GC in Human Breath Analysis，2011—2012👧🏿；已結題，主持

16. Agilent university research grant（海外捐贈）⚛️：Novel Thin Film Sampling and Direct Mass Spectrometry Analysis with Desorption Corona Beam Ionization， 2010—2011。已結題，主持

17. 國家環境保護城市大氣復合汙染成因與防治重點實驗室：基於PTR-TOF對上海市大氣VOCs的監測測試，2017.08—2019.07，結題🗾，主持

18. 暨南大學：不同顆徑氣溶膠顆粒中全氟化合物的分析和測試，2018.05—2019.04，結題，主持

19. 上海市環境科學研究院：基於UHPLC-Orbitrap對上海市大氣OA的檢測測試，2017.11—2018.11，結題🤞🤵，主持

教研成果

近年發表論文

1. Gao, Y.; Li, M.; Wan, X.; Zhao, X.; Wu, Y.; Liu, X.; Li, X.*, Important contributions of alkenes and aromatics to VOCs emissions, chemistry and secondary pollutants formation at an industrial site of central eastern China. Atmospheric Environment, 2021, 244, 117927.

2. Lyu, Y.; Li, X.*, Volatility Dependence of the Aerosol Size Distributions of Nonpolar Organic Compounds: A Case Study in Shanghai. Journal of Geophysical Research: Atmospheres 2020, 125, (12), e2019JD031894.

3. Cai, D.; Wang, X.; Chen, J.; Li, X.*, Molecular Characterization of Organosulfates in Highly Polluted Atmosphere Using Ultra-High-Resolution Mass Spectrometry. Journal of Geophysical Research: Atmospheres 2020, 125, (8), e2019JD032253.

4. Wu, N.; Lu, B.; Chen, J.; Li, X.*, Size distributions of particle-generated hydroxyl radical (·OH) in surrogate lung fluid (SLF) solution and their potential sources. Environmental pollution 2020, 268, (Pt B), 115582-115582.

5. Guo, H.; Wang, N.; Li, X.*, Antioxidative potential of metformin: Possible protective mechanism against generating OH radicals. Frontiers of Environmental Science & Engineering 2020, 15, (2), 21.

6. Guo, H.; Fu, H.; Jin, L.; Huang, S.; Li, X.*, Quantification of synergistic, additive and antagonistic effects of aerosol components on total oxidative potential. Chemosphere 2020, 252, 126573.

7. Gao, Y.; Wang, H.; Zhang, X.; Jing, S. a.; Peng, Y.; Qiao, L.; Zhou, M.; Huang, D. D.; Wang, Q.; Li, X.*; Li, L.; Feng, J.; Ma, Y.; Li, Y., Estimating Secondary Organic Aerosol Production from Toluene Photochemistry in a Megacity of China. Environmental Science & Technology, 2019, 53, (15), 8664-8671.

8. Wu, N.; Cai, D.; Guo, M.; Li, M. ; Li, X.*, Per- and polyfluorinated compounds in saleswomen's urine linked to indoor dust in clothing shops. Science of the Total Environment, 2019, 667, 594-600.

9. Guo, H.B.; Li, M.; Lyu, Y.; Cheng, T.T.; Xv, J. J.; Li, X.*, Size-resolved particle oxidative potential in the office, laboratory, and home: Evidence for the importance of water-soluble transition metals. Environmental Pollution, 2019, 246, 704-709.

10. Guo, H.; Yang, W.; Jiang, L.; Lyu, Y.; Cheng, T.; Gao, B.; Li, X.*, Association of short-term exposure to ambient air pollutants with exhaled nitric oxide in hospitalized patients with respiratory-system diseases. Ecotoxicology and Environmental Safety, 2019, 168, 394-400.

11. Gao, Y.; Lyu, Y.; Li, X.*, Size distribution of airborne particle-bound PAHs and o-PAHs and their implications for dry deposition. Environmental Science: Processes & Impacts 2019, 21, (7), 1184-1192.

12. Lyu, Y; Guo, H-b; Cheng, T-t and Li, X.*. 'Particle Size Distributions of Oxidative Potential of Lung-Deposited Particles: Assessing Contributions from Quinones and Water-Soluble Metals', Environmental Science & Technology, 2018, 52: 6592-600.

13. Guo, M J; Lyu, Y; Xu, T T; Yao, B; Song, W H; Li, M; Yang, X; Cheng, T T; and Li, X.*.'Particle size distribution and respiratory deposition estimates of airborne perfluoroalkyl acids during the haze period in the megacity of Shanghai', Environmental Pollution, 2018, 234: 9-19.

14. Wang, N., Sun, X., Chen, J., and Li, X.*, Heterogeneous Nucleation of Trichloroethylene Ozonation Products in the Formation of New Fine Particles. Scientific Reports, 2017, 7: p. 42600.

15. Lyu, Y., Zhang, K., Chai, F., Cheng, T., Yang, Q., Zheng, Z., and Li, X.*, Atmospheric size-resolved trace elements in a city affected by non-ferrous metal smelting: Indications of respiratory deposition and health risk. Environmental Pollution, 2017, 224: p. 559-571.

16. Xu, T., Jiang, L., Yang, X., Chen, J., Cheng, T., and Li, X.*, Design and application of a novel integrated microsampling system for simultaneous collection of gas- and particle-phase semivolatile organic compounds. Atmospheric Environment, 2017, 149: p. 1-11.

17. Lyu, Y., Xu, T., Yang, X., Chen, J., Cheng, T., and Li, X.*, Seasonal contributions to size-resolved n-alkanes (C8–C40) in the Shanghai atmosphere from regional anthropogenic activities and terrestrial plant waxes. Science of the Total Environment, 2017, 579: p. 1918-1928.

18. Zhao, X., Zhang, C., Wang, S., Song, C., and Li, X.*, Theoretical and experimental study on the degradation mechanism of atrazine in Fenton oxidation treatment. RSC Advances, 2017, 7(3): p. 1581-1587.

19. Lyu, Y., Xu, T., Li, X.*, Cheng, T., Yang, X., Sun, X., and Chen, J., Size distribution of particle-associated polybrominated diphenyl ethers (PBDEs) and their implications for health. Atmospheric Measurement Techniques, 2016, 9(3): p. 1025-1037.

20. Lv, Y., Li, X.*, Xu, T.T., Cheng, T.T., Yang, X., Chen, J.M., Iinuma, Y., and Herrmann, H., Size distributions of polycyclic aromatic hydrocarbons in urban atmosphere: sorption mechanism and source contributions to respiratory deposition. Atmospheric Chemistry and Physics, 2016, 16(5): p. 2971-2983.

21. Li, X., Jiang, L., Hoa, L.P., Lyu, Y., Xu, T., Yang, X., Iinuma, Y., Chen, J., and Herrmann, H., Size distribution of particle-phase sugar and nitrophenol tracers during severe urban haze episodes in Shanghai. Atmospheric Environment, 2016, 145: p. 115-127.

22. Li, X., Chen, M., Le, H.P., Wang, F., Guo, Z., Iinuma, Y., Chen, J., and Herrmann, H., Atmospheric outflow of PM2.5 saccharides from megacity Shanghai to East China Sea: Impact of biological and biomass burning sources. Atmospheric Environment, 2016. 143: p. 1-14.

23. Leng, C., Duan, J., Xu, C., Zhang, H., Wang, Y., Wang, Y., Li, X.*, Kong, L., Tao, J., Zhang, R., Cheng, T., Zha, S., and Yu, X., Insights into a historic severe haze event in Shanghai: synoptic situation, boundary layer and pollutants. Atmospheric Chemistry and Physics, 2016. 16(14): p. 9221-9234.

24. Du, J., Cheng, T., and Li, X.*, A 20-year observation (1991-2009) of wet nitrogen (N) deposition in Megacity Shanghai. International journal of Environmental Technology and Management, 2016. 2016(5/6): p. 444 - 454.

25. Xu, T., Lv, Y., Cheng, T., and Li, X.*, Using comprehensive GC × GC to study PAHs and n-alkanes associated with PM2.5 in urban atmosphere. Environmental Science and Pollution Research, 2015. 22(7): p. 5253-5262.

26. 王艷姣, 李想*等,電離源質譜法快速檢測食品包裝材料中的雙酚A. 分析化學, 2014. 42(1).

27. Ma, H., Li, X.*, Chen, J., Wang, H., Cheng, T., Chen, K., and Xu, S., Analysis of human breath samples of lung cancer patients and healthy controls with solid-phase microextraction (SPME) and flow-modulated comprehensive two-dimensional gas chromatography (GC× GC). Analytical Methods, 2014. 6(17): p. 6841-6849.

28. Li, X., Wang, S., Zhou, R., and Zhou, B., Urban atmospheric formaldehyde concentrations measured by a differential optical absorption spectroscopy method. Environmental Science: Processes & Impacts, 2014. 16(2): p. 291-297.

29. 陳建民, 李想, 霧汙染及其形成機製. 自然雜誌, 2013(05).

30. Yan, L.L., Li, X.*, Chen, J.M., Wang, X.J., Du, J.F., and Ma, L., Source and deposition of polycyclic aromatic hydrocarbons to Shanghai, China. Journal of Environmental Sciences, 2012. 24(1): p. 116-123.

31. Li, X., Wang, Y.H., Yang, X., Chen, J.M., Fu, H.B., and Cheng, T.T., Conducting polymers in environmental analysis. Trac-Trends in Analytical Chemistry, 2012. 39: p. 163-179.

32. 李瑩瑩, 李想*, 陳建民, 植物釋放揮發性有機物(BVOC)向二次有機氣溶膠(SOA)轉化機製研究. 環境科學, 2011(12).

33. 李想👋🏊🏻，陳建民, 新型動態針捕集阱技術分析大氣中低濃度的VOCs. 環境科學, 2011(12).

34. Li, X., Li, P.F., Yan, L.L., Chen, J.M., Cheng, T.T., and Xu, S.F., Characterization of polycyclic aromatic hydrocarbons in fog-rain events. Journal of Environmental Monitoring, 2011. 13(11): p. 2988-2993.

35. Li, X.*, Wang, H., Sun, W.J., and Ding, L., Desorption Corona Beam Ionization Coupled with a Poly(dimethylsiloxane) Substrate: Broadening the Application of Ambient Ionization for Water Samples. Analytical Chemistry, 2010. 82(22): p. 9188-9193.

36. Li, X.*, Ouyang, G.F., Lord, H., and Pawliszyn, J., Theory and Validation of Solid-Phase Microextraction and Needle Trap Devices for Aerosol Sample. Analytical Chemistry, 2010. 82(22): p. 9521-9527.

37. Li, X.*, Zhong, M., and Chen, J.M., Electrodeposited polyaniline as a fiber coating for solid-phase microextraction of organochlorine pesticides from water. Journal of Separation Science, 2008. 31(15): p. 2839-2845.

38. Li, X., Li, C.M., Chen, J.M., Li, C.L., and Sun, C., Polythiophene as a novel fiber coating for solid-phase microextraction. Journal of Chromatography A, 2008. 1198: p. 7-13.

39. Li, X., Chen, J.M., and Du, L.C., Analysis of chloro- and nitrobenzenes in water by a simple polyaniline-based solid-phase microextraction coupled with gas chromatography. Journal of Chromatography A, 2007. 1140(1-2): p. 21-28.

40. Li, X., Zhong, M., Xu, S.F., and Sun, C., Determination of phthalates in water samples using polyaniline-based solid-phase microextraction coupled with gas chromatography. Journal of Chromatography A, 2006. 1135(1): p. 101-108.

41. Li, X., Sun, C., and Zhou, F., A novel nitrite sensor based on poly-1-naphthylamine doped by a ferrocenesulfonic-acid-modified electrode. Journal of Analytical Chemistry, 2006. 61(9): p. 896-901.

42. Li, X., Zhong, M., Sun, C., and Luo, Y., A novel bilayer film material composed of polyaniline and poly(methylene blue). Materials Letters, 2005. 59(29-30): p. 3913-3916.

43. Li, X., Ta, N., and Sun, C., Electrochemical polymerization of 1-naphthylamine and properties of poly-1-naphthylamine. Bulletin of Electrochemistry, 2005. 21(4): p. 173-177.

44. Li, X., Sun, C., and Wei, Z.B., Electrochemical properties of poly-1-naphthylamine synthesized in the presence of ferrocenesulfonic acid. Synthetic Metals, 2005. 155(1): p. 45-50.

45. Li, X. and Sun, C., Bioelectrochemical response of the polyaniline tyrosinase electrode to phenol. Journal of Analytical Chemistry, 2005. 60(11): p. 1073-1077.

46. Li, X., Lu, R.G., Kan, J.Q., Xue, H.G., and Li, Y.F., Effects of sodium benzosulfonate on electrochemical polymerization of 2-aminopyridine. Bulletin of Electrochemistry, 2003. 19(8): p. 361-366.