李晓晓,特聘副研究员,硕士生导师,湖北省“楚天英才计划”楚天学者,清华大学“水木学者”。研究方向为大气污染防治,主要聚焦气溶胶力学/化学、二次颗粒物生成等方面。主持国家自然科学基金面上项目和青年项目、湖北省自然科学基金面上项目、重点实验室开放课题、博士后面上项目等,参与完成多项国家重点研发计划和基金委重点项目。在Environ. Sci. Technol., Atmos. Chem. Phys., 等期刊发表SCI论文40余篇,担任多个期刊审稿人。注重学生能力培养、关注学生未来发展,欢迎有兴趣的本科生、研究生、博士后加入课题组。
教育经历
2015.8-2020.6 清华大学 | 环境科学与工程 | 工学博士
2011.9-2015.6 武汉大学 | 环境工程 | 工学学士
2017.9-2018.11 加州大学尔湾分校 | 化学系 | 访问学者
工作经历
2022.11-至今 武汉大学 | 资源与环境科学学院 | 特聘副研究员
2020.7-2022.10 清华大学 | 环境学院 | 博士后
主持科研项目
[1]. 国家自然科学基金面上项目,不同相对湿度下城市大气低温新粒子生长的机制研究,主持,2024-2027
[2]. 国家自然科学基金青年项目,城市大气超细颗粒物组分在线测量及特征研究,主持, 2022-2024
[3]. 湖北省自然科学基金面上项目,3-50 纳米大气新粒子的粒径、组分和相态对其吸收 HNO3 的影响研究,主持,2023-2025
[4]. 省市“双一流” 建设专项人才启动经费,大气二次颗粒物生成机制与控制,主持,2023-2025
[5]. 国家环境保护城市大气复合污染成因与防治重点实验室开放基金,城市大气超细颗粒物高时空分辨率分布特征分析, 主持,2024-2025
[6]. 武汉市自然科学基金探索计划(晨光计划),宽温度范围复合污染物光化学氧化潜势系统开发与评测,主持,2024-2026
[7]. 中国博士后科学基金,大气3-50纳米颗粒物化学组分在线测量技术的研制与应用,主持,2020-2022
[8]. 武汉大学学科交叉团队建设和培育专项,大气超细颗粒物(PM0.1)毒性效应及其对新生儿肠道菌群的影响研究,子课题负责人,2024-2025
[9]. 湖北省级环保科研项目,基于烟雾箱模拟实验的臭氧精细化调控策略,子课题负责人,2024-2026
代表性论文
气溶胶化学监测技术(TDCIMS):
[1]. Li X. et al., Composition of Ultrafine Particles in Urban Beijing: Measurement Using a Thermal Desorption Chemical Ionization Mass Spectrometer. Environmental Science & Technology. 55 (5). 2859–2868. 2021.
[2]. Li X. et al., Online detection of airborne nanoparticle composition with mass spectrometry: recent advances, challenges, and opportunities. Trends in Analytical Chemistry. 166. 117195. 2023.
大气新粒子生成(NPF)/大气超细颗粒物(PM0.1):
[3]. Wang H., Li X.*, ..., Jiang J.*, Characterization of particle number size distribution and new particle formation in a highly-humid megacity Wuhan, central China, Atmospheric Environment. 360.121455. 2025.
[4]. Li Y.#, Li X.#, et al., The Significant Role of New Particle Composition and Morphology on the HNO3-Driven Growth of Particles down to Sub-10 nm. Environmental Science & Technology., doi: 10.1021/acs.est.3c09454, 2024.
[5]. Li X. et al., Insufficient Condensable Organic Vapors Lead to Slow Growth of New Particles in an Urban Environment. Environmental Science & Technology. 55 (14). 9936-9946. 2022.
[6]. Li X. et al., Seasonal variations in composition and sources of atmospheric ultrafine particles in urban Beijing based on near-continuous measurements. Atmospheric Chemistry and Physics. 23, 14801–14812, 2023.
[7]. Yin R.#, Li X.# et al., Revealing the sources and sinks of negative cluster ions in an urbanenvironment through quantitative analysis. Atmospheric Chemistry and Physics. 23 (9). 5279-5296. 2023.
[8]. 李等, 大气超细颗粒物来源及其化学组分研究进展. 环境化学. 40 (10). 2947-2959. 2021. (中文核心,创刊40周年纪念专刊封面)
气溶胶与空气质量:
[9]. He X.#, Zeng P.#, ..., Li X.*, Cheng H.*, The significant contribution of biomass burning to methanol-soluble nitrogenous organics and its evolution during the highly-humid haze event in urban Wuhan. NPJ climate and Atmospheric Science., 8:244, 2025
[10]. Deng M., ... ,Li X.*, Cheng H.*, Nitrogen and oxygen isotope characteristics, formation mechanism, and source apportionment of nitrate aerosols in Wuhan, Central China., Science of the Total Environment, 921, pp.170715, 2024.
[11]. Wang Z., ... ,Li X.*, Cheng H.*, Variations in the oxidation potential of PM 2.5 in an old industrial city in China from 2015 to 2018, Science of the Total Environment, 948, 174639, 2024.
[12]. Li X. et al., Responses of gaseous sulfuric acid and particulate sulfate to reduced SO2 concentration: A perspective from long-term measurements in Beijing. Science of the Total Environment. 721. No.137700. 2020.
[13]. Li X. et al., Interactions between aerosol organic components and liquid water content during haze episodes in Beijing. Atmospheric Chemistry and Physics. 19 (19). 12163-12174. 2019.
烟雾箱与流动管模拟:
[14]. Li X. et al., Relative humidity effect on the formation of highly oxidized molecules and new particles during monoterpene oxidation. Atmospheric Chemistry and Physics. 19 (3). 1555-1570. 2019.
[15]. Perraud V.#, Li X.#, et al., Size-Resolved Chemical Composition of Sub-20 nm Particles from Methanesulfonic Acid Reactions with Methylamine and Ammonia. ACS Earth and Space Chemistry. 4 (7). 1182–1194. 2020.
授课信息
本科生,专业选修,《燃烧与污染》,1学分,主讲
研究生,专业选修,《大气污染控制原理》,2学分,主讲
本科生,专业必修,《大气污染控制工程》,2.5学分,参讲
本科生,专业选修,《大气环境化学》,2学分,参讲
本科生,公共必修,《国家安全教育》MOOC课程,1学分,参讲
