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招聘信息:
李 想
发表时间:2012-06-01 阅读次数:19945次

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李 想  教授/博导

 

复旦大学 环境科学与工程系

上海市淞沪路2005号复旦大学(江湾校区)

环境楼3009室,200433

Email:lixiang@fudan.edu.cn

 

 

个人简历

2016.12––至今

教授

复旦大学 环境与科学工程系

2014.10––2016.01

访问学者

德国 莱布尼兹对流层研究所(TROPOS)大气化学系

2014.01––至今

博导

复旦大学 环境与科学工程系

2011.09––2016.12

副教授

复旦大学 环境与科学工程系

2008.07––2009.09

博士后

加拿大 University of Waterloo 化学系

2006.08––2011.09

讲师

复旦大学 环境与科学工程系

2003.09––2006.07

博士

南京大学 环境学院

 

研究方向

VOCs质谱分析;大气O3与PM2.5复合污染;呼气VOCs标志物筛查

        主要研究方向为大气VOCs及相关仪器分析,基于VOCs直接观测和动力学模拟等研究手段,关注典型城市环境中大气VOCs的来源和转化以及相应大气化学机理的研发,致力于从化学的角度解读区域大气O3与PM2.5复合污染的形成机理,为区域二次污染防控提供科技支撑。进一步拓展有机质谱分析人呼出气中VOCs生物标志物筛查新方法,构建呼气VOCs与人体心肺和代谢疾病的关联,推进其在疾病无损诊断、环境健康等研究中转化应用。实验室拥有TD- GC×GC-TOFms、GC-QQQ、on-line GCMS)等多台先进色谱-质谱仪器,拥有SPME、Bio-VOC sampler、ReCIVA-RD Breath Sampler、Needle trap device等多个VOCs样品采集装置。

       先后主持国家自然科学基金国际合作(中德) 重点项目1项、国基面上项目5项、教育部博士点基金1项、教育部留学回国人员科研基金1项、地方大气污染控制类多项、美国Agilent Technologies国际赠款基金3项。同时获Agilent捐赠1台新全二维气相色谱。在“Environ. Sci. Technol.”、“Anal. Chem.”、“J. Geophys. Res-atmos”、“Atmos. Chem. Phys.”、“环境科学”、“中国环境科学”等国内外核心刊物上发表论文50余篇。雾化学研究成果还被被评为 “2011年度上海十大科技进展”之一,受到《新华社》、 《CCTV》、 《BBC》等多家主流媒体广泛报道,并引发公众对雾污染的高度关注。现为上海浦东新区科学技术专家、中国化学会会员、中国环境科学学会会员、美国ACS会员等。分别入选2008、2014年复旦大学“青年骨干教师带薪长期公派”计划;入选2012年复旦大学第二批“卓学计划”资助。2012年获得“第八届青年科技奖”。

       长期承担本科生课程《环境分析化学》、研究生课程《环境分析技术》、 《大气气溶胶科学与技术》 教学工作。目前指导研究生10人,指导本科生“登辉计划”、“曦源项目”、“科创项目”等科研项目3项。指导本科生毕业论文6人,其中3名同学获得台湾“东元科教基金会-绿色能源主题”国际赛季军。

 

近期主持科研项目

  1. 国家自然科学基金—国际合作(中德)重点项目:42061134006,长三角地区大气臭氧与细颗粒物的耦合机制及调控研究,2021.01—2023.12,300万元,在研,项目负责人
  2. 国家自然科学基金:大气颗粒物氧化潜势的形成机制研究(No. 21876029),2019.01—2022.12,66万元,在研,项目负责人
  3. 国家自然科学基金重大研究计划集成项目:大气细颗粒物毒性组分甄别研究(No. 91843301),2019.01—2021.12,100/1250万元 (课题经费),在研,课题主持
  4. 嘉峪关市生态环境局:“嘉峪关市大气污染成因分析及对策研究项目”, 2019.12—2021.03,236万元,在研,项目负责人
  5. 酒泉市生态环境局:酒泉市颗粒物PM10来源解析及PM2.5、O3污染特征研究,2019.01—2020.12,129.8万元,在研,项目负责人
  6. 国家自然科学基金:大气糖类有机物在雾霾过程中的行为与机制研究(No. 21577021),2016.01—2019.12,68万元,已结题,项目负责人
  7. 国家自然科学基金:半挥发性有机物在大气细颗粒物老化过程中的理化行为(No. 21377028),2014—2017,85万元,已结题,项目负责人
  8. 国家自然科学基金:污染大气半挥发性有机物(SVOCs)相转化机制研究(No. 21177025),2012—2015,65万元,已结题,项目负责人
  9. 国家自然科学基金:大气污染物诱导植物释放VOCs特征研究(No. 40705045),2008—2010,20万元,已结题,项目负责人
  10. 上海市优秀学科带头人计划,14XD1400600,大气气溶胶的物理化学性质及其环境效应,2014—2017,40万元 (课题经费主持),已结题
  11. 教育部博士点基金:大气污染物胁迫城市植物研究(No. 20070246029), 2008—2010;已结题,项目负责人
  12. 入选第二批复旦大学“卓学计划”, 2013—2015;已结题,项目负责人
  13.  Agilent university research grant(海外捐赠):Research on the Organic Composition of Fogs / Hazes by Comprehensive GC×GC with SPME,2013—2014;已结题,项目负责人
  14.  Agilent university research grant(海外捐赠):Needle trap Devices and SPME Design for Flow Modulated Comprehensive Two-Dimensional GC in Human Breath Analysis,2011—2012;已结题,项目负责人
  15.  Agilent university research grant(海外捐赠):Novel Thin Film Sampling and Direct Mass Spectrometry Analysis with Desorption Corona Beam Ionization, 2010—2011。已结题,项目负责人
  16.  国家环境保护城市大气复合污染成因与防治重点实验室:基于PTR-TOF对上海市大气VOCs的监测测试,2017.08—2019.07,结题,项目负责人
  17.  暨南大学:不同颗径气溶胶颗粒中全氟化合物的分析和测试,2018.05—2019.04,结题,项目负责人
  18.  上海市环境科学研究院:基于UHPLC-Orbitrap对上海市大气OA的检测测试,2017.11—2018.11,结题,项目负责人

 

近年发表论文(仅第一与通讯作者)

  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. 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.
  3. 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.
  4. 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.
  5. 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.
  6. 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.
  7. 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.
  8. 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.
  9. 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.
  10. 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.
  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. 王艳姣, 李想*等,电离源质谱法快速检测食品包装材料中的双酚A. 分析化学, 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. 陈建民, 李想, 雾污染及其形成机制. 自然杂志, 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. 李莹莹, 李想*, 陈建民, 植物释放挥发性有机物(BVOC)向二次有机气溶胶(SOA)转化机制研究. 环境科学, 2011(12).
  33. 李想,陈建民, 新型动态针捕集阱技术分析大气中低浓度的VOCs. 环境科学, 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.

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