【基本信息】

姓名：李俊玲

职称：副研究员

研究方向：大气环境化学

电话：010-84912784

Email：lijl@craes.org.cn

【个人履历】

教育经历

2008.09-2012.07    山东师范大学                   化学      理学学士

2013.09-2018.06    中国科学院化学研究所           物理化学  理学博士

主要工作经历

2019.05-2021.09    中国环境科学研究院             博士后

2021.10-2021.12    中国环境科学研究院             助理研究员

2022.01至今       中国环境科学研究院             副研究员

【科学研究】

主要研究领域

1. 有机污染物的大气化学过程

2. 气溶胶的生成与化学过程、理化性质及环境效应

代表性研究项目

1. 生态环境部城市大气复合污染成因与防治重点实验室开放课题“高碳醛酮类化合物对大气氧化能力影响机制研究”2024.01-2025.12, 项目负责人

2. 国家重点研发计划专项“大气氧化性的演变规律与大气自净能力的驱动机制”（2023YFC3706102），2023.11-2026.11，子课题负责人

3. 中央级公益性科研院所基金，有机和无机共存气体对IVOCs代表性物质反应机制及环境效应影响的研究（2022YSKY-21），2022.11-2023.10，项目负责人

4. 广东省生态环境厅，柴油车和自然源排放对大气二次污染影响的模拟研究与对策—基于烟雾箱模拟对MCM光化学机制的验证和改进（GDSCZT2021），2021.09-2023.01，技术负责人

5. 中国博士后科学基金会，代表性长链烷烃生成二次有机气溶胶的实验室模拟研究（2019M660752），2019.10-2021.09，项目负责人

6. 中国气象局大气化学重点开放实验室，长链烷烃生成二次有机气溶胶过程的模拟研究（2019B08），2019.09-2020.10，项目负责人

生态环境研究报告

1．李俊玲，李红，纪元元，褚旸晰，胡京南，王炜罡，葛茂发. 加强半挥发性和中等挥发性有机物研究与管控 有效助力PM2.5与臭氧协同治理，生态环境研究报告，总第78期，环科院第6期，20230406. （获黄部长批示）

代表性论文

（一作、共同一作及通讯文章）

1．  Li J#, Chen T#, Zhang H, et al. Nonlinear effect of NOx concentration decrease on secondary aerosol formation in the Beijing-Tianjin-Hebei region: Evidence from smog chamber experiments and field observations [J], Science of the Total Environment, 2024, 912: 168333.

2．  LI J, LI K, ZHANG H, et al. Effects of OH radical and SO2 concentrations on photochemical reactions of mixed anthropogenic organic gases [J]. Atmospheric Chemistry and Physics, 2022, 22(16): 10489-10504.

3．  LI J, LI K, LI H, et al. Long-chain alkanes in the atmosphere: A review [J]. Journal of Environmental Sciences, 2022, 114: 37-52.

4．  LI J, LI H, LI K, et al. Enhanced secondary organic aerosol formation from the photo-oxidation of mixed anthropogenic volatile organic compounds [J]. Atmospheric Chemistry and Physics, 2021, 21(10): 7773-7789.

5．  LI J, LI H, WANG X, et al. A large-scale outdoor atmospheric simulation smog chamber for studying atmospheric photochemical processes: Characterization and preliminary application [J]. Journal of Environmental Sciences 2021, 102:185-197.

6．  LI J, WANG W, LI K, et al. Effect of chemical structure on optical properties of secondary organic aerosols derived from C12 alkanes [J]. Science of the Total Environment, 2021, 751:141620.

7．  LI J, WANG W, LI K, et al. Temperature effects on optical properties and chemical composition of secondary organic aerosol derived from n-dodecane [J]. Atmospheric Chemistry and Physics 2020, 20:8123-8137.

8．  LI J, WANG W, LI K, et al. Development and application of the multi-wavelength cavity ring-down aerosol extinction spectrometer [J]. Journal of Environmental Sciences, 2019, 76:227-237.

9．  LI J#, LI K#, WANG W, et al. Optical properties of secondary organic aerosols derived from long-chain alkanes under various NOx and seed conditions [J]. Science of the Total Environment, 2017, 579:1699-1705.

10．LI K#, LI J#, LIGGIO J, et al. Enhanced light scattering of secondary organic aerosols by multiphase reactions [J]. Environmental Science & Technology, 2017, 51(3): 1285-1292.

（参与合作文章）

CHEN Y, WANG W, LI J, et al. Kinetic and mechanism of the reaction between Cl and several mono-methyl branched alkanes [J]. Journal of Environmental Sciences, 2024, 135: 474-482.

ZHANG H, WANG W, FAN L, LI J, et al. The role of sulfur cycle in new particle formation: Cycloaddition reaction of SO3 to H2S [J]. Journal of Environmental Sciences, 2023，https://doi.org/10.1016/j.jes.2023.09.010.

3．  ZHANG Y, CHENG M, GAO J, et al. Review of the influencing factors of secondary organic aerosol formation and aging mechanism based on photochemical smog chamber simulation methods [J]. Journal of Environmental Sciences, 2023, 123:545-559.

4．  WANG K, LI J, LEI T, et al. Volatility of Cl-initiated C12–C14 n-alkylcyclohexane secondary organic aerosol: Effects of NOx and photoaging [J]. ACS Earth and Space Chemistry, 2022, 6(5): 1345-1357.

5．  WANG K, WANG W, FAN C, et al. Reactions of C12-C14 n-alkylcyclohexanes with Cl atoms: Kinetics and secondary organic aerosol formation [J]. Environmental Science & Technology, 2022, 56(8): 4859-4870.

6．  LIAN C, WANG W, CHEN Y, et al. Long-term winter observation of nitrous acid in the urban area of Beijing [J]. Journal of Environmental Sciences, 2022, 114:334-342.

7．  LI Y, WANG X, WU Z, et al. Atmospheric nitrous acid (HONO) in an alternate process of haze pollution and ozone pollution in urban Beijing in summertime: Variations, sources and contribution to atmospheric photochemistry [J]. Atmospheric Research, 2021, 260: 105689.

8．  GE M, TONG S, WANG W, et al. Important oxidants and their impact on the environmental effects of aerosols [J]. Journal of Physical Chemistry A, 2021, 125(18): 3813-3125.

9．  CHEN Y, WANG W, LIAN C, et al. Evaluation and impact factors of indoor and outdoor gas-phase nitrous acid under different environmental conditions [J]. Journal of Environmental Sciences 2020, 95:165-171.

10．       ZHANG W, WANG W, LI J, et al. Effects of SO2 on optical properties of secondary organic aerosol generated from photooxidation of toluene under different relative humidity [J]. Atmospheric Chemistry and Physics 2020, 20(7): 4477–4492.

11．SHI B, WANG W, ZHOU L, et al. Kinetics and mechanisms of the gas-phase reactions of OH radicals with three C15 alkanes [J]. Atmospheric Environment, 2019, 207:75-81.

12．YANG W, LI J, WANG W, et al. Investigating secondary organic aerosol formation pathways in China during 2014 [J]. Atmospheric Environment, 2019, 213:133-147.

13．LI K, LI J, TONG S, et al. Characteristics of wintertime VOCs in suburban and urban Beijing: concentrations, emission ratios, and festival effects [J]. Atmospheric Chemistry and Physics, 2019, 19(12): 8021-8036.

14．PENG C, WANG W, LI K, et al. The optical properties of limonene secondary organic aerosols: the role of NO3, OH and O3 in the oxidation processes [J]. Journal of Geophysical Research: Atmospheres, 2018, 123(6): 3292-3303.

15．LI K, LI J, WANG W, et al. Effects of gas-particle partitioning on refractive index and chemical composition of m-xylene secondary organic aerosol [J]. Journal of Physical Chemistry A, 2018, 122(12): 3250-60.

16．LI K, LI J, WANG W, et al. Evaluating the effectiveness of joint emission control policies on the reduction of ambient VOCs: Implications from observation during the 2014 APEC summit in suburban Beijing [J]. Atmospheric Environment, 2017, 164:117-127.

17．WANG Y, JING B, GUO Y, et al. Water uptake of multicomponent organic mixtures and their influence on hygroscopicity of inorganic salts [J]. Journal of Environmental Sciences, 2016, 45:156-163.

18．李红, 彭良, 毕方, 李陵，鲍婕萌，李俊玲，张浩，柴发合. 我国PM2.5与臭氧污染协同控制策略研究 [J]. 环境科学研究, 2019, 32(10): 1763-1778.

专著

1. 《臭氧污染防治知识问答》中国环境出版集团，2021-11

【教学工作】

2019年至今，协助指导1名博士和2名硕士进行论文开题、实验研究及论文撰写

【荣誉奖励】

1. 中国环境科学研究院“青年英才实施计划”（科技英才）

2. 作为“大气复合污染成因”团队成员，获评2021及2022年中国环境科学研究院“十佳创新团队”

3. 中国发明协会“发明创业奖创新奖”二等奖，排名第三

【其他】

代表性发明专利：

1. 王玮罡; 李俊玲; 葛茂发; 李坤; 一种大气中中等挥发性有机物的在线监测系统, 2017-11, 中国, CN201720132801.2

2. 王炜罡; 李俊玲; 葛茂发; 李坤; 一种大气中中等挥发性有机物的在线监测系统及监测方法, 2017, 中国, CN201710079044.1

3．王炜罡; 李坤; 李俊玲; 葛茂发; 张文玉; 一种宽波段可调谐光腔衰荡光谱仪, 2019-4-23, 中国, CN201710077878.9

4．王炜罡; 张文玉; 彭超; 李俊玲; 葛茂发; 一种便携可折叠烟雾箱, 2021-12-10, 中国, CN201910625997.5