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李军(JUN LI) / 研究员
研究方向:(1)气溶胶来源与生成机制的同位素研究;(2) 基于多同位素的CO2与主要大气污染物的同源性识别;
联系方式:020-85291508
电子邮件:junli@gig.ac.cn

简  历:

1972年生。博士。现任中国科学院广州地球化学研究所研究员。本科和硕士期在中国地质大学(武汉)地球化学专业就读,于中国科学院广州地球化学研究所获环境科学博士学位。学科方向为环境有机地球化学。近期主要研究方向:(1)气溶胶来源与生成机制的同位素研究;和(2) 基于多同位素的CO2与主要大气污染物的同源性识别等。研究成果发表SCI刊物论文360余篇,其中,60余篇发表于环境污染研究期刊ES&T。论文被SCI引用>14,000余次,h指数为63 (Web of Science)。


获奖及荣誉:

广东省自然科学一等奖(2013)

代表性论著:

近5年发表通讯作者论文:

1.     Li, T., Li, J., Xie, L., Lin, B., Jiang, H., Sun, R., Wang, X., Liu, B., Tian, C., Li, Q., Jia, W., Zhang, G., Peng, P.a., 2024. In situ biomass burning enhanced the contribution of biogenic sources to sulfate aerosol in subtropical cities. The Science of the total environment 908, 168384-168384.

2.     Li, T., Li, J., Sun, Z., Jiang, H., Tian, C., Zhang, G., 2023. High contribution of anthropogenic combustion sources to atmosphericinorganic reactive nitrogen in South China evidenced by isotopes. Atmospheric Chemistry and Physics 23, 6395-6407.

3.     Wang, X., Li, J., Zhang, X., Cheng, Z., Jiang, H., Jiang, H., Lin, B., Zhu, S., Zhao, S., Liu, J., Tian, C., Zhang, R., Zhang, G., 2023. An innovative passive sampler to reveal the high contribution of biomass burning to black carbon over Indo-China Peninsula: Radiocarbon constraints. Atmospheric Environment 294.

4.     Zhang, Q., Ma, H., Li, J., Jiang, H., Chen, W., Wan, C., Jiang, B., Dong, G., Zeng, X., Chen, D., Lu, S., You, J., Yu, Z., Wang, X., Zhang, G., 2023a. Nitroaromatic Compounds from Secondary Nitrate Formation and Biomass Burning Are Major Proinflammatory Components in Organic Aerosols in Guangzhou: A Bioassay Combining High-Resolution Mass Spectrometry Analysis. Environmental science & technology.

5.     Zhang, X., Li, J., Zhu, S., Liu, J., Ding, P., Gao, S., Tian, C., Chen, Y., Peng, P.a., Zhang, G., 2023b. Technical note: Intercomparison study of the elemental carbon radiocarbon analysis methods using synthetic known samples. Atmospheric Chemistry and Physics 23, 7495-7502.

6.     Cui, M., Chen, Y., Yan, C., Li, J., Zhang, G., 2022. Refined source apportionment of residential and industrial fuel combustion in the Beijing based on real-world source profiles. Science of the Total Environment 826.

7.     Jiang, H., Li, J., Tang, J., Cui, M., Zhao, S., Mo, Y., Tian, C., Zhang, X., Jiang, B., Liao, Y., Chen, Y., Zhang, G., 2022a. Molecular characteristics, sources, and formation pathways of organosulfur compounds in ambient aerosol in Guangzhou, South China. Atmospheric Chemistry and Physics 22, 6919-6935.

8.     Jiang, H., Li, J., Tang, J., Zhao, S., Chen, Y., Tian, C., Zhang, X., Jiang, B., Liao, Y., Zhang, G., 2022b. Factors Influencing the Molecular Compositions and Distributions of Atmospheric Nitrogen-Containing Compounds. Journal of Geophysical Research-Atmospheres 127.

9.     Jiang, H., Tang, J., Li, J., Zhao, S., Mo, Y., Tian, C., Zhang, X., Jiang, B., Liao, Y., Chen, Y., Zhang, G., 2022c. Molecular Signatures and Sources of Fluorescent Components in Atmospheric Organic Matter in South China. Environmental Science & Technology Letters 9, 913-920.

10.  Jiang, M., Zhang, Z., Li, T., Lin, B., Zhang, Z., Liao, T., Yuan, L., Pan, S., Li, J., Zhang, G., 2022d. Source Apportionment of Ammonium in Atmospheric PM_(2.5) in the Pearl River Delta Based on Nitrogen Isotope. Ecology and Environmental Sciences 31, 1840-1848.

11.  Sun, R., Wang, X., Tian, C., Zong, Z., Ma, W., Zhao, S., Wang, Y., Tang, J., Cui, S., Li, J., Zhang, G., 2022. Exploring source footprint of Organophosphate esters in the Bohai Sea, China: Insight from temporal and spatial variabilities in the atmosphere from June 2014 to May 2019. Environment International 159.

12.  Wang, X., Li, J., Tian, C., Zong, Z., Liu, Q., Jiang, H., Li, T., Li, J., Jiang, H., Zhao, S., Zhang, G., 2022. Sources and Formation of Atmospheric Nitrate Over China-Indochina Peninsula in Spring: A Perspective From Oxygen and Nitrogen Isotopic Compositions Based on Passive Air Samplers. Frontiers in Environmental Science 10

13.  Jiang, H., Li, J., Sun, R., Liu, G., Tian, C., Tang, J., Cheng, Z., Zhu, S., Zhong, G., Ding, X., Zhang, G., 2021a. Determining the Sources and Transport of Brown Carbon Using Radionuclide Tracers and Modeling. Journal of Geophysical Research-Atmospheres 126.

14.  Jiang, H., Li, J., Sun, R., Tian, C., Tang, J., Jiang, B., Liao, Y., Chen, C.-E., Zhang, G., 2021b. Molecular Dynamics and Light Absorption Properties of Atmospheric Dissolved Organic Matter. Environmental Science & Technology 55, 10268-10279.

15.  Mo, Y., Li, J., Cheng, Z., Zhong, G., Zhu, S., Tian, C., Chen, Y., Zhang, G., 2021. Dual Carbon Isotope-Based Source Apportionment and Light Absorption Properties of Water-Soluble Organic Carbon in PM2.5 Over China. Journal of Geophysical Research-Atmospheres 126.

16.  Sun, Z., Zong, Z., Tian, C., Li, J., Sun, R., Ma, W., Li, T., Zhang, G., 2021. Reapportioning the sources of secondary components of PM2.5: combined application of positive matrix factorization and isotopic evidence. Science of the Total Environment 764.

17.  Tang, J., Wang, J., Zhong, G., Jiang, H., Mo, Y., Zhang, B., Geng, X., Chen, Y., Tang, J., Tian, C., Bualert, S., Li, J., Zhang, G., 2021. Measurement report: Long-emission-wavelength chromophores dominate the light absorption of brown carbon in aerosols over Bangkok: impact from biomass burning. Atmospheric Chemistry and Physics 21, 11337-11352.

18.  Wang, X., Li, J., Sun, R., Jiang, H., Zong, Z., Tian, C., Xie, L., Li, Q., Jia, W., Peng, P.a., Zhang, G., 2021. Regional characteristics of atmospheric delta S-34-SO42- over three parts of Asia monitored by quartz wool-based passive samplers. Science of the Total Environment 778.

19.  Jiang, H., Li, J., Chen, D., Tang, J., Cheng, Z., Mo, Y., Su, T., Tian, C., Jiang, B., Liao, Y., Zhang, G., 2020. Biomass burning organic aerosols significantly influence the light absorption properties of polarity-dependent organic compounds in the Pearl River Delta Region, China. Environment International 144.

20.  Li, T., Li, J., Jiang, H., Chen, D., Zong, Z., Tian, C., Zhang, G., 2020. Source Apportionment of PM(2.5)in Guangzhou Based on an Approach of Combining Positive Matrix Factorization with the Bayesian Mixing Model and Radiocarbon. Atmosphere 11.

21.  Liu, D., Vonwiller, M., Li, J., Liu, J., Szidat, S., Zhang, Y., Tian, C., Chen, Y., Cheng, Z., Zhong, G., Fu, P., Zhang, G., 2020. Fossil and Non-fossil Fuel Sources of Organic and Elemental Carbonaceous Aerosol in Beijing, Shanghai, and Guangzhou: Seasonal Carbon Source Variation. Aerosol and Air Quality Research 20, 2495-2506.

22.  Su, T., Li, J., Tian, C., Zong, Z., Chen, D., Zhang, G., 2020. Source and formation of fine particulate nitrate in South China: Constrained by isotopic modeling and online trace gas analysis. Atmospheric Environment 231.

23.  Tang, J., Li, J., Su, T., Han, Y., Mo, Y., Jiang, H., Cui, M., Jiang, B., Chen, Y., Tang, J., Song, J., Peng, P.a., Zhang, G., 2020. Molecular compositions and optical properties of dissolved brown carbon in biomass burning, coal combustion, and vehicle emission aerosols illuminated by excitation-emission matrix spectroscopy and Fourier transform ion cyclotron resonance mass spectrometry analysis. Atmospheric Chemistry and Physics 20, 2513-2532.

24.  Zong, Z., Tan, Y., Wang, X., Tian, C., Li, J., Fang, Y., Chen, Y., Cui, S., Zhang, G., 2020a. Dual-modelling-based source apportionment of NOx in five Chinese megacities: Providing the isotopic footprint from 2013 to 2014. Environment International 137.

25.  Zong, Z., Tian, C., Li, J., Syed, J.H., Zhang, W., Fang, Y., Jiang, Y., Nasir, J., Mansha, M., Rizvi, S.H.H., Shafiq, M., Bin Farhan, S., Zhang, G., 2020b. Isotopic Interpretation of Particulate Nitrate in the Metropolitan City of Karachi, Pakistan: Insight into the Oceanic Contribution to NOx. Environmental Science & Technology 54, 7787-7797.

26.  Cui, M., Li, C., Chen, Y., Zhang, F., Li, J., Jiang, B., Mo, Y., Li, J., Yan, C., Zheng, M., Xie, Z., Zhang, G., Zheng, J., 2019. Molecular characterization of polar organic aerosol constituents in off-road engine emissions using Fourier transform ion cyclotron resonance mass spectrometry (FT-ICR MS): implications for source apportionment. Atmospheric Chemistry and Physics 19, 13945-13956.

27.  Zhang, X., Li, J., Mo, Y., Shen, C., Ding, P., Wang, N., Zhu, S., Cheng, Z., He, J., Tian, Y., Gao, S., Zhou, Q., Tian, C., Chen, Y., Zhang, G., 2019. Isolation and radiocarbon analysis of elemental carbon in atmospheric aerosols using hydropyrolysis. Atmospheric Environment 198, 381-386.

承担科研项目情况:

1.国家自然 科学基金重点项目,基于同位素技术量化降碳过程中大气污染物协同减排效能,No.42330715,20241.01-2028.12,223万元,项目负责人