1.大气有机物排放、组成和化学转化研究

2.大气痕量有机物的质谱检测与立体测量方法

3.大气成分交换通量研究

1.大气有机物排放、组成和化学转化研究

2.大气痕量有机物的质谱检测与立体测量方法

3.大气成分交换通量研究

1. 国家重点研发计划项目，大气氧化性演变规律与大气自净能力驱动机制，2024-2026，课题负责人，在研

2. 国家自然科学基金委面上项目，含氧挥发性有机物光解及其大气环境效应研究，2023-2026，主持，在研

3. 国家重点研发计划政府间国际科技创新合作项目，基于通量测量的城市挥发性有机物（VOCs）排放量化与应用，2020-2022，主持，结题

4. 国家自然科学基金委面上项目，大气中有机酸的来源和二次生成机制研究，2019-2022，主持，结题

5. 广东省自然科学杰出青年基金项目，基于中间态含氧有机物的大气氧化机制及环境效应研究，2018-2022，主持，结题

6. 国家自然科学基金委国际合作与交流项目，中国与韩国“城市呼吸”含碳组分交换通量的比较研究，2023-2025，主持，在研

7. 国家重点研发计划青年科学家项目，城市残留层化学机制及影响量化评估，2024-2026，参与，在研

8. 国家自然科学基金委创新研究群体项目，大气化学，2022-2026，参与，在研

9. 国家重点研发计划，珠三角PM2.5和臭氧综合防控技术与精准施策示范，2018-2021，参与，结题

10. 广东省重点领域研发计划，珠三角PM2.5和臭氧污染协同控制及示范，2019-2022，参与，结题 

（一）论文

1. Guo, Y.#, Gong, D.#, Wang, H.*, Li, Q., Wu, G., Wang, Y., Cai, H., Yuan, B.*, Wang, B., and Liu, S. C.*: Sources of elevated organic acids in the mountainous background atmosphere of southern China, Science of The Total Environment, 914, 169673, 2024.

2. Wang, W.*, Yuan, B.*, Su, H., Cheng, Y., Qi, J., Wang, S., Song, W., Wang, X., Xue, C., Ma, C., Bao, F., Wang, H., Lou, S., and Shao, M.: A large role of missing volatile organic compound reactivity from anthropogenic emissions in ozone pollution regulation, Atmos. Chem. Phys., 24, 4017-4027, 2024.

3. Cai, Y.#, Ye, C.#, Chen, W., Hu, W.*, Song, W., Peng, Y., Huang, S., Qi, J., Wang, S., Wang, C., Wu, C., Wang, Z., Wang, B., Huang, X., He, L., Gligorovski, S., Yuan, B.*, Shao, M., and Wang, X.: The important contribution of secondary formation and biomass burning to oxidized organic nitrogen (OON) in a polluted urban area: insights from in situ measurements of a chemical ionization mass spectrometer (CIMS), Atmospheric Chemistry and Physics, 23, 8855-8877, 2023.

4. Hao, Y.#, Zhou, J.#*, Zhou, J. P., Wang, Y., Yang, S., Huangfu, Y., Li, X. B., Zhang, C., Liu, A., Wu, Y., Zhou, Y., Yang, S., Peng, Y., Qi, J., He, X., Song, X., Chen, Y., Yuan, B.*, and Shao, M.: Measuring and modeling investigation of the net photochemical ozone production rate via an improved dual-channel reaction chamber technique, Atmos. Chem. Phys., 23, 9891-9910, 2023.

5. Li, X.#, Zhang, C.#, Liu, A., Yuan, B.*, Yang, H., Liu, C., Wang, S., Huangfu, Y., Qi, J., Liu, Z., He, X., Song, X., Chen, Y., Peng, Y., Zhang, X., Zheng, E., Yang, L., Yang, Q., Qin, G., Zhou, J., and Shao, M.: Assessment of Long Tubing in Measuring Atmospheric Trace Gases: Applications on Tall Towers, Environmental Science: Atmospheres, 3, 506 - 520, 2023 (Front inside cover, Emerging Investigator Series).

6. Peng, Y., Yuan, B.*, Yang, S., Wang, S., Yang, X., Wang, W., Li, J., Song, X., Wu, C., Qi, J., Zheng, E., Ye, C., Huang, S., Hu, W., Song, W., Wang, X., Wang, B., and Shao, M.: Photolysis frequency of nitrophenols derived from ambient measurements, Science of The Total Environment, 161810, 10.1016/j.scitotenv.2023.161810, 2023.

7. Ye, C., Liu, Y.*, Yuan, B.*, Wang, Z., Lin, Y., Hu, W., Chen, W., Li, T., Song, W., Wang, X., Lv, D., Gu, D., and Shao, M.: Low-NO-like Oxidation Pathway Makes a Significant Contribution to Secondary Organic Aerosol in Polluted Urban Air, Environmental Science & Technology, 10.1021/acs.est.3c01055, 2023.

8. Chen, Y., Yuan, B.*, Wang, C., Wang, S., He, X., Wu, C., Song, X., Huangfu, Y., Li, X.-B., Liao, Y., and Shao, M.: Online measurements of cycloalkanes based on NO⁺ chemical ionization in proton transfer reaction time-of-flight mass spectrometry (PTR-ToF-MS), Atmospheric Measurement Techniques, 15, 6935-6947, 2022.

9. He, X., Yuan, B.*, Wu, C., Wang, S., Wang, C., Huangfu, Y., Qi, J., Ma, N., Xu, W., Wang, M., Chen, W., Su, H., Cheng, Y., and Shao, M.: Volatile organic compounds in wintertime North China Plain: Insights from measurements of proton transfer reaction time-of-flight mass spectrometer (PTR-ToF-MS), Journal of Environmental Sciences, 114, 98-114, 2022.

10. Li, X. B., Yuan, B.*, Wang, S., Wang, C., Lan, J., Liu, Z., Song, Y., He, X., Huangfu, Y., Pei, C., Cheng, P., Yang, S., Qi, J., Wu, C., Huang, S., You, Y., Chang, M., Zheng, H., Yang, W., Wang, X., and Shao, M.: Variations and sources of volatile organic compounds (VOCs) in urban region: insights from measurements on a tall tower, Atmos. Chem. Phys., 22, 10567-10587, 2022.

11. Li, X.-B., Yuan, B.*, Parrish, D. D., Chen, D., Song, Y., Yang, S., Liu, Z., and Shao, M.: Long-term trend of ozone in southern China reveals future mitigation strategy for air pollution, Atmospheric Environment, 269, 118869, 2022.

12. Wang, H., Yuan, B.*, Zheng, E., Zhang, X., Wang, J., Lu, K., Ye, C., Yang, L., Huang, S., Hu, W., Yang, S., Peng, Y., Qi, J., Wang, S., He, X., Chen, Y., Li, T., Wang, W., Huangfu, Y., Li, X., Cai, M., Wang, X., and Shao, M.: Formation and impacts of nitryl chloride in Pearl River Delta, Atmospheric Chemistry and Physics, 22, 14837-14858, 2022.

13. Wang, S., Yuan, B.*, Wu, C., Wang, C., Li, T., He, X., Huangfu, Y., Qi, J., Li, X.-B., Sha, Q. e., Zhu, M., Lou, S., Wang, H., Karl, T., Graus, M., Yuan, Z.*, and Shao, M.: Oxygenated volatile organic compounds (VOCs) as significant but varied contributors to VOC emissions from vehicles, Atmospheric Chemistry and Physics, 22, 9703-9720, 2022.

14. Wang, W., Yuan, B.*, Peng, Y., Su, H.*, Cheng, Y., Yang, S., Wu, C., Qi, J., Bao, F., Huangfu, Y., Wang, C., Ye, C., Wang, Z., Wang, B., Wang, X., Song, W., Hu, W., Cheng, P., Zhu, M., Zheng, J., and Shao, M.: Direct observations indicate photodegradable oxygenated volatile organic compounds (OVOCs) as larger contributors to radicals and ozone production in the atmosphere, Atmos. Chem. Phys., 22, 4117-4128, 2022.

15. Yang, S., Yuan, B.*, Peng, Y., Huang, S., Chen, W., Hu, W., Pei, C., Zhou, J., Parrish, D. D., Wang, W., He, X., Cheng, C., Li, X. B., Yang, X., Song, Y., Wang, H., Qi, J., Wang, B., Wang, C., Wang, C., Wang, Z., Li, T., Zheng, E., Wang, S., Wu, C., Cai, M., Ye, C., Song, W., Cheng, P., Chen, D., Wang, X., Zhang, Z., Wang, X., Zheng, J., and Shao, M.*: The formation and mitigation of nitrate pollution: comparison between urban and suburban environments, Atmos. Chem. Phys., 22, 4539-4556, 2022.

16. Yang, X., Yuan, B.*, Peng, Z., Peng, Y., Wu, C., Yang, S., Li, J., and Shao, M.: Inter-comparisons of VOC oxidation mechanisms based on box model: A focus on OH reactivity, Journal of Environmental Sciences, 114, 286-296, 2022.

17. Cai, M., Liang, B., Sun, Q., Liu, L., Yuan, B.*, Shao, M., Huang, S., Peng, Y., Wang, Z., Tan, H., Li, F., Xu, H., Chen, D., and Zhao, J.*: The important roles of surface tension and growth rate in the contribution of new particle formation (NPF) to cloud condensation nuclei (CCN) number concentration: evidence from field measurements in southern China, Atmos. Chem. Phys., 21, 8575-8592, 2021.

18. Huangfu, Y., Yuan, B.*, Wang, S., Wu, C., He, X., Qi, J., de Gouw, J., Warneke, C., Gilman, J. B., Wisthaler, A., Karl, T., Graus, M., Jobson, B. T., and Shao, M.: Revisiting Acetonitrile as Tracer of Biomass Burning in Anthropogenic-Influenced Environments, Geophysical Research Letters, 48, e2020GL092322, 2021.

19. Li, T.#, Wang, Z.#, Yuan, B.*, Ye, C., Lin, Y., Wang, S., Sha, Q., Yuan, Z., Zheng, J., and Shao, M.: Emissions of carboxylic acids, hydrogen cyanide (HCN) and isocyanic acid (HNCO) from vehicle exhaust, Atmos. Environ., 247, 118218, 2021.

20. Mo, Z. #, Cui, R. #, Yuan, B.*, Cai, H., McDonald, B. C., Li, M., Zheng, J., and Shao, M.*: A mass-balance-based emission inventory of non-methane volatile organic compounds (NMVOCs) for solvent use in China, Atmos. Chem. Phys., 21, 13655-13666, 2021.

21. Qi, J., Mo, Z., Yuan, B.*, Huang, S.*, Huangfu, Y., Wang, Z., Li, X., Yang, S., Wang, W., Zhao, Y., Wang, X., Wang, W., Liu, K., and Shao, M.: An observation approach in evaluation of ozone production to precursor changes during the COVID-19 lockdown, Atmospheric Environment, 262, 118618, 2021.

22. Shao, M.#, Wang, W.#, Yuan, B.*, Parrish, D. D., Li, X., Lu, K., Wu, L., Wang, X.*, Mo, Z., Yang, S., Peng, Y., Kuang, Y., Chen, W., Hu, M., Zeng, L., Su, H., Cheng, Y., Zheng, J., and Zhang, Y.: Quantifying the role of PM2.5 dropping in variations of ground-level ozone: Inter-comparison between Beijing and Los Angeles, Science of The Total Environment, 788, 147712, 2021.

23. Wang, W.#, Qi, J.#, Zhou, J., Yuan, B.*, Peng, Y., Wang, S., Yang, S., Williams, J., Sinha, V., and Shao, M.: The improved comparative reactivity method (ICRM): measurements of OH reactivity under high-NOx conditions in ambient air, Atmos. Meas. Tech., 14, 2285-2298, 2021.

24. Ye, C., Yuan, B.*, Lin, Y., Wang, Z., Hu, W., Li, T., Chen, W., Wu, C., Wang, C., Huang, S., Qi, J., Wang, B., Wang, C., Song, W., Wang, X., Zheng, E., Krechmer, J. E., Ye, P., Zhang, Z., Wang, X., Worsnop, D. R., and Shao, M.: Chemical characterization of oxygenated organic compounds in the gas phase and particle phase using iodide CIMS with FIGAERO in urban air, Atmospheric Chemistry and Physics, 21, 8455-8478, 2021.

25. Mo, Z., Huang, S.*, Yuan, B.*, Pei, C., Song, Q., Qi, J., Wang, M., Wang, B., Wang, C., Li, M., Zhang, Q., and Shao, M.: Deriving emission fluxes of volatile organic compounds from tower observation in the Pearl River Delta, China, Science of The Total Environment, 741, 139763, 2020.

26. Wang, C., Yuan, B.*, Wu, C., Wang, S., Qi, J., Wang, B., Wang, Z., Hu, W., Chen, W., Ye, C., Wang, W., Sun, Y., Wang, C., Huang, S., Song, W., Wang, X., Yang, S., Zhang, S., Xu, W., Ma, N., Zhang, Z., Jiang, B., Su, H., Cheng, Y., Wang, X., and Shao, M.*: Measurements of higher alkanes using NO⁺ chemical ionization in PTR-ToF-MS: important contributions of higher alkanes to secondary organic aerosols in China, Atmos. Chem. Phys., 20, 14123-14138, 2020.

27. Wang, Z., Yuan, B.*, Ye, C., Roberts, J., Wisthaler, A., Lin, Y., Li, T., Wu, C., Peng, Y., Wang, C., Wang, S., Yang, S., Wang, B., Qi, J., Wang, C., Song, W., Hu, W., Wang, X., Xu, W., Ma, N., Kuang, Y., Tao, J., Zhang, Z., Su, H., Cheng, Y., Wang, X., and Shao, M.*: High Concentrations of Atmospheric Isocyanic Acid (HNCO) Produced from Secondary Sources in China, Environ. Sci. Technol., 54, 11818-11826, 2020.

28. Wu, C., Wang, C., Wang, S., Wang, W., Yuan, B.*, Qi, J., Wang, B., Wang, H., Wang, C., Song, W., Wang, X., Hu, W., Lou, S., Ye, C., Peng, Y., Wang, Z., Huangfu, Y., Xie, Y., Zhu, M., Zheng, J., Wang, X., Jiang, B., Zhang, Z., and Shao, M.*: Measurement report: Important contributions of oxygenated compounds to emissions and chemistry of volatile organic compounds in urban air, Atmos. Chem. Phys., 20, 14769-14785, 2020.

29. Yuan, B.*, Koss, A. R., Warneke, C.*, Coggon, M., Sekimoto, K., and de Gouw, J. A.*: Proton-Transfer-Reaction Mass Spectrometry: Applications in Atmospheric Sciences, Chemical Reviews, 117, 13187-13229, 2017.

30. Yuan, B.*, Coggon, M. M., Koss, A. R., Warneke, C., Eilerman, S., Peischl, J., Aikin, K. C., Ryerson, T. B., and de Gouw, J. A.: Emissions of volatile organic compounds (VOCs) from concentrated animal feeding operations (CAFOs): chemical compositions and separation of sources, Atmos. Chem. Phys., 17, 4945-4956, 2017.

31. Yuan, B.*, Koss, A., Warneke, C., Gilman, J. B., Lerner, B. M., Stark, H., and de Gouw, J. A., A high-resolution time-of-flight chemical ionization mass spectrometer utilizing hydronium ions (H₃O⁺ ToF-CIMS) for measurements of volatile organic compounds in the atmosphere, Atmos. Meas. Tech., 9, 2735-2752, 2016.

32. Yuan, B.*, Liggio, J., Wentzell, J., Li, S. M., Stark, H., Roberts, J. M., Gilman, J., Lerner, B., Warneke, C., Li, R., Leithead, A., Osthoff, H. D., Wild, R., Brown, S. S., and de Gouw, J. A., Secondary formation of nitrated phenols: insights from observations during the Uintah Basin Winter Ozone Study (UBWOS) 2014, Atmos. Chem. Phys., 16, 2139-2153, 2016.

33. Yuan, B.*, Kaser, L., Karl, T., Graus, M., Peischl, J., Campos, T. L., Shertz, S., Apel, E. C., Hornbrook, R. S., Hills, A., Gilman, J. B., Lerner, B. M., Warneke, C., Flocke, F. M., Ryerson, T. B., Guenther, A. B., and de Gouw, J. A., Airborne flux measurements of methane and volatile organic compounds (VOCs) over the Haynesville and Marcellus shale gas production regions, J. Geophys. Res., 120, 6271-6289, 2015.

34. Yuan, B.*, Veres, P. R., Warneke, C., Roberts, J. M., Gilman, J. B., Koss, A., Edwards, P. M., Graus, M., Kuster, W. C., Li, S. M., Wild, R. J., Brown, S. S., Dubé, W. P., Lerner, B. M., Williams, E. J., Johnson, J. E., Quinn, P. K., Bates, T. S., Lefer, B., Hayes, P. L., Jimenez, J. L., Weber, R. J., Zamora, R., Ervens, B., Millet, D. B., Rappenglück, B., and de Gouw, J. A., Investigation of secondary formation of formic acid: urban environment vs. oil and gas producing region, Atmos. Chem. Phys., 15, 1975-1993, 2015.

35. Yuan, B.*, Warneke, C., Shao, M., and de Gouw, J. A.: Interpretation of volatile organic compound measurements by proton-transfer-reaction mass spectrometry over the deepwater horizon oil spill, Int. J. Mass Spec., 358, 43-48, 2014. 

36. Yuan, B., Hu, W. W., Shao, M.*, Wang, M., Chen, W. T., Lu, S. H., Zeng, L. M., and Hu, M., VOC emissions, evolutions and contributions to SOA formation at a receptor site in eastern China, Atmos. Chem. Phys., 13, 8815-8832, 2013.

37. Yuan, B., Shao, M.*, de Gouw, J., Parrish, D. D., Lu, S., Wang, M., Zeng, L., Zhang, Q., Song, Y., Zhang, J., and Hu, M., Volatile organic compounds (VOCs) in urban air: How chemistry affects the interpretation of positive matrix factorization (PMF) analysis. J. Geophys. Res. 117, D24302, 10.1029/2012jd018236, 2012 (Chosen as Editors’ Highlights, http://tinyurl.com/q93aerc).

38. Yuan, B., Chen, W. T., Shao, M.*, Wang, M., Lu, S. H., Wang, B., Liu, Y., Chang, C. C., and Wang, B. G., Measurements of ambient hydrocarbons and carbonyls in the Pearl River Delta (PRD), China, Atmos. Res., 116, 93-104, 2012.

39. Yuan, B., Shao, M.*, Lu, S., and Wang, B.: Source profiles of volatile organic compounds associated with solvent use in Beijing, China, Atmos. Environ., 44, 1919-1926, 2010.

40. Yuan, B., Liu, Y., Shao, M.*, Lu, S., and Streets, D. G., Biomass Burning Contributions to Ambient VOCs Species at a Receptor Site in the Pearl River Delta (PRD), China, Environ. Sci. Technol., 44, 4577-4582, 2010.

41. Chen, W., Hu, W.*, Tao, Z., Cai, Y., Cai, M., Zhu, M., Ye, Y., Zhou, H., Jiang, H., Li, J., Song, W., Zhou, J., Huang, S., Yuan, B., Shao, M., Feng, Q., Li, Y., Isaacman-VanWertz, G., Stark, H., Day, D. A., Campuzano-Jost, P., Jimenez, J. L., and Wang, X.: Quantitative Characterization of the Volatility Distribution of Organic Aerosols in a Polluted Urban Area: Intercomparison Between Thermodenuder and Molecular Measurements, Journal of Geophysical Research: Atmospheres, 129, e2023JD040284, 2024.

42. Cheng, C., Yang, S., Yuan, B., Pei, C.*, Zhou, Z., Mao, L., Liu, S., Chen, D., Cheng, X., Li, M.*, Shao, M., and Zhou, Z.: The significant contribution of nitrate to a severe haze event in the winter of Guangzhou, China, Science of The Total Environment, 909, 168582, 2024.

43. Fang, X., Li, Z., Yuan, B., and Chen, Y.: Image-Based PM2.5 Estimation From Imbalanced Data Distribution Using Prior-Enhanced Neural Networks, IEEE Sensors Journal, 24, 4677-4693, 2024.

44. Li, F., Huang, D. D., Tian, L., Yuan, B., Tan, W., Zhu, L., Ye, P., Worsnop, D., Hoi, K. I., Mok, K. M., and Li, Y. J.*: Response of protonated, adduct, and fragmented ions in Vocus proton-transfer-reaction time-of-flight mass spectrometer (PTR-ToF-MS), Atmos. Meas. Tech., 17, 2415-2427, 2024.

45. Zhou, J.*, Fukusaki, Y., Murano, K., Gautam, T., Bai, Y., Inomata, Y., Komatsu, H., Takeda, M., Yuan, B., Shao, M., Sakamoto, Y., and Kajii, Y.*: Investigation of HO2 uptake mechanisms onto multiple-component ambient aerosols collected in summer and winter time in Yokohama, Japan, Journal of Environmental Sciences, 137, 18-29, 2024.

46. Cai, Z., Xie, Q., Yang, L., Yuan, B., Wu, G., Zhu, Z., Wu, L., Chang, M.*, and Wang, X.: A novel method for spatial allocation of volatile chemical products emissions: A case study of the Pearl River Delta, Atmospheric Environment, 120119, 2023.

47. Dix, B.*, Li, M., Roosenbrand, E., Francoeur, C., Brown, S. S., Gilman, J. B., Hanisco, T. F., Keutsch, F., Koss, A., Lerner, B. M., Peischl, J., Roberts, J. M., Ryerson, T. B., St. Clair, J. M., Veres, P. R., Warneke, C., Wild, R. J., Wolfe, G. M., Yuan, B., Veefkind, J. P., Levelt, P. F., McDonald, B. C., and de Gouw, J.: Sources of Formaldehyde in U.S. Oil and Gas Production Regions, ACS Earth and Space Chemistry, 2023.

48. Feng, T., Wang, Y., Hu, W., Zhu, M., Song, W., Chen, W., Sang, Y., Fang, Z., Deng, W., Fang, H., Yu, X., Wu, C., Yuan, B., Huang, S., Shao, M., Huang, X., He, L., Lee, Y. R., Huey, L. G., Canonaco, F., Prevot, A. S. H., and Wang, X.: Impact of aging on the sources, volatility, and viscosity of organic aerosols in Chinese outflows, Atmos. Chem. Phys., 23, 611-636, 2023.

49. Gao, Y., Wang, H.*, Yuan, L., Jing, S., Yuan, B., Shen, G., Zhu, L., Koss, A., Li, Y., Wang, Q., Huang, D. D., Zhu, S., Tao, S., Lou, S., and Huang, C.: Measurement report: Underestimated reactive organic gases from residential combustion – insights from a near-complete speciation, Atmospheric Chemistry and Physics, 23, 6633-6646, 2023.

50. Hong, J.*, Tang, M., Wang, Q.*, Ma, N., Zhu, S., Zhang, S., Pan, X., Xie, L., Li, G., Kuhn, U., Yan, C., Tao, J., Kuang, Y., He, Y., Xu, W., Cai, R., Zhou, Y., Wang, Z., Zhou, G., Yuan, B., Cheng, Y., and Su, H.: Measurement Report: Wintertime new particle formation in the rural area of the North China Plain–influencing factors and possible formation mechanism, Atmospheric Chemistry and Physics, 23, 5699-5713, 2023.

51. Huang, Y., Ropkins, K., Yuan, B., Yao, L., and Huang, L.: Editorial: Urban air pollution: sources, characterization and mitigation, Frontiers in Environmental Science, 11, 10.3389/fenvs.2023.1349491, 2023.

52. Liu, X., Yuan, Z.*, Sha, Q. e., Lou, S., Wang, H., Li, X., Zheng, J., Yuan, B., and Shao, M.: Direct identification of total and missing OH reactivities from light-duty gasoline vehicle exhaust in China based on LP-LIF measurement, Journal of Environmental Sciences, 133, 107-117, 2023.

53. Liu, Y., Wu, L., Huang, S.*, Song, Q., Hu, W., Chen, W., Wu, Z., Man, R., He, Y., Li, W., Peng, Y., Liu, J., Song, W., Ma, N., Yuan, B., Wang, X., and Shao, M.: Sources, size-resolved deposition in the human respiratory tract and health risks of submicron black carbon in urban atmosphere in Pearl River Delta, China, Science of The Total Environment, 891, 164391, 2023.

54. Liu, Z., Zha, F., Wang, Y., Yuan, B., Liu, B., and Tang, G.*: Vertical evolution of the concentrations and sources of volatile organic compounds in the lower boundary layer in urban Beijing in summer, Chemosphere, 332, 138767, 2023.

55. Ma, P., Quan, J.*, Dou, Y., Pan, Y., Liao, Z., Cheng, Z., Jia, X., Wang, Q., Zhan, J., Ma, W., Zheng, F., Wang, Y., Zhang, Y., Hua, C., Yan, C., Kulmala, M., Liu, Y., Huang, X., Yuan, B., Brown, S. S., and Liu, Y.*: Regime-Dependence of Nocturnal Nitrate Formation via N2O5 Hydrolysis and Its Implication for Mitigating Nitrate Pollution, Geophysical Research Letters, 50, e2023GL106183, 2023.

56. Nihill, K. J.*, Coggon, M. M., Lim, C. Y., Koss, A. R., Yuan, B., Krechmer, J. E., Sekimoto, K., Jimenez, J. L., de Gouw, J., Cappa, C. D., Heald, C. L., Warneke, C., and Kroll, J. H.*: Evolution of organic carbon in the laboratory oxidation of biomass-burning emissions, Atmos. Chem. Phys., 23, 7887-7899, 2023.

57. Qiu, Y., Wu, Z.*, Man, R., Zong, T., Liu, Y., Meng, X., Chen, J., Chen, S., Yang, S., Yuan, B., Song, M., Kim, C., Ahn, J., Zeng, L., Lee, J., and Hu, M.: Secondary aerosol formation drives atmospheric particulate matter pollution over megacities (Beijing and Seoul) in East Asia, Atmospheric Environment, 301, 2023.

58. Zhang, S., Li, G., Ma, N., He, Y., Zhu, S., Pan, X., Dong, W., Zhang, Y., Luo, Q., Ditas, J., Kuhn, U., Zhang, Y., Yuan, B., Wang, Z., Cheng, P., Hong, J., Tao, J., Xu, W., Kuang, Y., Wang, Q., Sun, Y., Zhou, G., Cheng, Y., and Su, H.: Exploring HONO formation and its role in driving secondary pollutants formation during winter in the North China Plain, Journal of Environmental Sciences, 132, 83-97, 2023.

59. Cai, M., Huang, S.*, Liang, B., Sun, Q., Liu, L.*, Yuan, B., Shao, M., Hu, W., Chen, W., Song, Q., Li, W., Peng, Y., Wang, Z., Chen, D., Tan, H., Xu, H., Li, F., Deng, X., Deng, T., Sun, J., and Zhao, J.: Measurement report: Distinct size dependence and diurnal variation in organic aerosol hygroscopicity, volatility, and cloud condensation nuclei activity at a rural site in the Pearl River Delta (PRD) region, China, Atmospheric Chemistry and Physics, 22, 8117-8136, 2022.

60. Chen, W., Guenther, A. B., Shao, M., Yuan, B., Jia, S., Mao, J., Yan, F., Krishnan, P., and Wang, X.*: Assessment of background ozone concentrations in China and implications for using region-specific volatile organic compounds emission abatement to mitigate air pollution, Environ. Pollut., 119254, 2022.

61. Hu, W.*, Zhou, H., Chen, W., Ye, Y., Pan, T., Wang, Y., Song, W., Zhang, H., Deng, W., Zhu, M., Wang, C., Wu, C., Ye, C., Wang, Z., Yuan, B., Huang, S., Shao, M., Peng, Z., Day, D. A., Campuzano-Jost, P., Lambe, A. T., Worsnop, D. R., Jimenez, J. L., and Wang, X.*: Oxidation Flow Reactor Results in a Chinese Megacity Emphasize the Important Contribution of S/IVOCs to Ambient SOA Formation, Environmental Science & Technology, 56, 6880-6893, 2022.

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116. Chen, W. T., Shao, M.*, Lu, S. H., Wang, M., Zeng, L. M., Yuan, B., and Liu, Y.: Understanding primary and secondary sources of ambient carbonyl compounds in Beijing using the PMF model, Atmos. Chem. Phys., 14, 3047-3062, 2014.

117. Edwards, P. M., Brown, S. S.*, Roberts, J. M., Ahmadov, R., Banta, R. M., deGouw, J. A., Dube, W. P., Field, R. A., Flynn, J. H., Gilman, J. B., Graus, M., Helmig, D., Koss, A., Langford, A. O., Lefer, B. L., Lerner, B. M., Li, R., Li, S. M., McKeen, S. A., Murphy, S. M., Parrish, D. D., Senff, C. J., Soltis, J., Stutz, J., Sweeney, C., Thompson, C. R., Trainer, M. K., Tsai, C., Veres, P. R., Washenfelder, R. A., Warneke, C., Wild, R. J., Young, C. J., Yuan, B., and Zamora, R.: High winter ozone pollution from carbonyl photolysis in an oil and gas basin, Nature, 514, 351-354, 2014.

118. Wang, M., Zeng, L.*, Lu, S., Shao, M., Liu, X., Yu, X., Chen, W., Yuan, B., Zhang, Q., Hu, M., and Zhang, Z.: Development and validation of a cryogen-free automatic gas chromatograph system (GC-MS/FID) for online measurements of volatile organic compounds, Anal. Methods, 6, 9424-9434, 2014.

119. Wang, M., Shao, M.*, Chen, W., Yuan, B., Lu, S., Zhang, Q., Zeng, L., and Wang, Q.: A temporally and spatially resolved validation of emission inventories by measurements of ambient volatile organic compounds in Beijing, China, Atmos. Chem. Phys., 14, 5871-5891, 2014.

120. Wild, R., Edwards, P. M., Dube, W. P., Baumann, K., Edgerton, E. S., Quinn, P., Roberts, J. M., Rollins, A., Veres, P., Warneke, C., Williams, E. J., Yuan, B., and Brown, S. S.*: A Measurement of Total Reactive Nitrogen, NOy, together with NO2, NO, and O3 via Cavity Ring-down Spectroscopy, Environ. Sci. Technol., 48, 9609-9615, 2014.

121. Zhang, Q., Yuan, B., Shao, M.*, Wang, X., Lu, S., Lu, K., Wang, M., Chen, L., Chang, C. C., and Liu, S. C.: Variations of ground-level O₃ and its precursors in Beijing in summertime between 2005 and 2011, Atmos. Chem. Phys., 14, 6089-6101, 2014.

122. Graus, M.*, Eller, A. S. D., Fall, R., Yuan, B., Qian, Y., Westra, P., de Gouw, J., and Warneke, C.: Biosphere-atmosphere exchange of volatile organic compounds over C4 biofuel crops, Atmos. Environ., 66, 161-168, 2013.

123. Hu, W. W., Hu, M.*, Yuan, B., Jimenez, J. L., Tang, Q., Peng, J. F., Hu, W., Shao, M., Wang, M., Zeng, L. M., Wu, Y. S., Gong, Z. H., Huang, X. F., and He, L. Y.: Insights on organic aerosol aging and the influence of coal combustion at a regional receptor site of central eastern China, Atmos. Chem. Phys., 13, 10095-10112, 2013.

124. Wang, M., Shao, M.*, Chen, W., Lu, S., Wang, C., Huang, D., Yuan, B., Zeng, L., and Zhao, Y.: Measurements of C1–C4 alkyl nitrates and their relationships with carbonyl compounds and O3 in Chinese cities, Atmos. Environ., 81, 389-398, 2013.

125. Wang, Z. B., Hu, M.*, Mogensen, D., Yue, D. L., Zheng, J., Zhang, R. Y., Liu, Y., Yuan, B., Li, X., Shao, M., Zhou, L., Wu, Z. J., Wiedensohler, A., and Boy, M.: The simulations of sulfuric acid concentration and new particle formation in an urban atmosphere in China, Atmos. Chem. Phys., 13, 11157-11167, 2013.

126. Zhang, Q., Shao, M.*, Li, Y., Lu, S., Yuan, B., Chen, W., Increase of ambient formaldehyde in Beijing and its contribution to the reactivity of volatile organic compounds (VOCs), Chinese Chem. Lett., 23, 1059-1062, 2012.

127. Shao, M.*, Wang, B., Lu, S., Yuan, B., and Wang, M.: Effects of Beijing Olympics Control Measures on Reducing Reactive Hydrocarbon Species, Environ. Sci. Technol., 45, 514-519, 2011.

128. Wang, B., Shao, M.*, Lu, S. H., Yuan, B., Zhao, Y., Wang, M., Zhang, S. Q., and Wu, D.: Variation of ambient non-methane hydrocarbons in Beijing city in summer 2008, Atmos. Chem. Phys., 10, 5911-5923, 2010.

129. 周婕萍, 袁斌*, 彭钰雯, 杨素霞, 李瑾, 刘思利, 黄山, 李小兵, 蔡嘉骅, 邵敏: 珠三角冬季臭氧污染成因分析—以2020年1月一次污染过程为例, 中国环境科学, 1-11, 2023.

130. 宋鑫, 袁斌*, 王思行, 何贤俊, 李小兵, 彭钰雯, 陈钰彬, 齐吉朋, 蔡嘉骅, 黄山, 胡丹, 魏文, 刘可旋, 邵敏: 珠三角典型工业区挥发性有机物（VOCs）组成特征：含氧挥发性有机物的重要性, 环境科学, 1-20, 2022.

131. 杨磊, 袁斌*, 郑锷, 叶晨朔, 王思行, 何贤俊, 张潇潇, 黄山, 胡伟伟, and 邵敏: 珠三角地区秋季生物质燃烧对有机气溶胶的贡献：城市与区域站点的对比, 中国环境科学, 1-9, 2022.

132. 郑锷, 袁斌*, 何贤俊, 王思行, 叶晨朔, 邵敏: 华北平原冬季持续大雾对挥发性有机物（VOCs）的影响研究, 环境科学学报, 1-10, 10.13671/j.hjkxxb.2022.0118, 2022.

133. 刘婵芳, 宋鑫, 李小兵, 宋永欣, 林丽衡, 云龙, 吴承宇, 游颖畅, 常鸣, 袁斌*: 深圳市一次典型春季臭氧污染事件成因研究, 环境科学学报, 1-9, 10.13671/j.hjkxxb.2022.0250, 2022.

134. 崔茹, 莫梓伟, 袁斌*, 邵敏: 我国日化用品使用挥发性有机物（VOCs）排放及臭氧生成潜势研究, 环境科学学报, 41, 2272-2281, 2021.

135. 刘智杰, 李小兵*, 袁斌*, 莫梓伟, 谭鑫, 周俊, 王思行, 何贤俊, 邵敏: 大气边界层内挥发性有机物（VOCs）的垂直观测方法及应用进展, 科学通报, 66, 10.1360/TB-2021-0207, 2021.

136. 谭鑫, 袁斌*, 王超敏, 叶晨朔, 张沈阳, 邵敏*: 环境大气中半/中等挥发性有机物(S/IVOCs)的测量技术进展, 中国环境科学, 40, 4224-4236, 2020.

137. 王思行, 彭钰雯, 齐吉朋, 武彩虹, 王超敏, 王宝琳, 王泽龙, 旷烨, 宋伟, 王新明, 胡伟伟, 陈卫, 沈劲, 陈多宏, 邵敏, 袁斌*: 挥发性有机物（VOCs）的不同化学去除途径：城市与区域站点的对比, 环境科学学报, 40, 2311-2322, 2020.

138. 伍永康, 陈伟华*, 颜丰华, 毛敬英, 袁斌, 王伟文, 王雪梅: 不同传输通道下珠江三角洲臭氧与前体物非线性响应关系, 环境科学, 43, 160-169, 2022.

139. 郝钰琦, 袁自冰*, 王梦雷, 沙青娥, 杜新悦, 刘元向, 刘学辉, 段乐君, 袁斌, 郑君瑜, 邵敏, 闫宇: 基于高分辨率在线测量的轻型汽油车含氧挥发性有机物排放模型构建, 环境科学, 42, 5747-5756, 2021.

140. 李伟, 黄山*, 袁斌, 郭松, 邵敏: 大气颗粒态有机硝酸酯的转化机制、测量技术及应用, 中国环境科学, 41, 3017-3028, 2021.

141. 郝钰琦, 沙青娥, 庄文辉*, 卢仲康, 袁自冰, 赵恺辉, 刘元向, 段乐君, 刘学辉, 张立航, 郑君瑜, 邵敏, 袁斌, 李文石, 王日超, 闫宇: 简易瞬态工况下汽油车挥发性有机物在线排放特征研究, 环境科学学报, 40, 4470-4482, 2020.

142. 李光辉, 蒋斌, 王思行, 李成, 袁斌, 王伯光, 张展毅*: 罐采样-预浓缩/气相色谱-质谱联用测定污染源废气中118种挥发性有机物, 分析测试学报, 39, 1441-1450, 2020.

143. 沈翔森, 刘硕英, 袁斌, 袁自冰, 杨荟楠, 陈军, 楼晟荣*: 基于LIF方法对柴油车尾气羟基总反应性测量, 大气与环境光学学报, 15, 269-284, 2020.

144. 郑君瑜, 袁斌, 王俏巧, 黄志炯, 袁自冰, 邵敏: 区域空气质量改善的历史经验和挑战——代“第五届经济快速发展地区空气质量改善国际学术研讨会”专刊序, 环境科学学报, 39, 1-3, 2019.

145. 陈文泰, 邵敏*, 袁斌, 王鸣, 陆思华: 大气中挥发性有机物（VOCs）对二次有机气溶胶（SOA）生成贡献的参数化估算, 环境科学学报, 33, 163-172, 2013.

146. 刘芮伶, 黄晓峰, 何玲燕*, 袁斌, 陆思华, 冯凝: 质子转移反应质谱在线测量大气挥发性有机物及来源研究——以深圳夏季为例, 环境科学学报, 32, 2540-2547, 2012.

147. 金蕾, 华蕾, 荆红卫, 袁斌: 非点源污染负荷估算方法研究进展及对北京市的应用, 环境污染与防治, 32, 72-77, 2010.

（二）论著

1．邵敏，袁斌，王鸣，郑君瑜，刘莹，陆思华（主编），《挥发性有机物（VOCs）来源及其大气化学作用》，科学出版社，2020年

（三）专利

1. 邵敏，王伟文，袁斌，王雪梅，一种PM2.5和臭氧污染协同防控的预测方法及系统，ZL202410057175.X，2024年4月5日，发明专利

2. 皇甫宜博，袁斌，邵敏，张潇潇，一种可控的低压气态成分标定系统，ZL202311656800.4，2024年2月20日，发明专利

3. 皇甫宜博，袁斌，王思行，杨洋，邵敏，一种箱式的逸散源挥发性成分可控高精度表征系统，已授权，发明专利

（四）奖励

1. 2022年广东省科技进步一等奖，排名4/15

2. 中国环境科学学会青年科学家奖（优秀奖），2020

3. 中国环境科学学会VOCs专委会青年学术创新奖，2017

4. 美国NOAA杰出科学论文奖（NOAA OAR Outstanding Scientific Paper Award），2017

5. 科罗拉多州长高影响力研究奖（Colorado Governor's Award for High-Impact Research），2014

6. 美国国家研究委员会研究助理奖研金（NRC Research Associateship Program），2012

7. 北京大学优秀博士论文，2012

本科生课程：《大气环境化学》

研究生课程：《大气化学及其应用》《大气环境化学》《高等大气环境化学》《环境分析技术》

本团队研究聚焦有机物的大气化学作用及环境气候效应效应，重点围绕以下几个方面开展理论、技术和实践工作：

（1）大气有机物测量技术研发。核心是大气有机物的总活性测量技术方法、有机物降解转化中间态组份识别，气相-颗粒相半／中等挥发性有机物测量技术，并应用于污染源及外场观测实验；

（2）挥发性有机物（VOCs）大气化学降解转化机理研究。VOCs大气反应机制是全球大气化学机理中最为复杂、也最具争议的部分。团队基于实际大气的新方法，以中间态产物为约束，构建我国大气条件下的VOCs大气反应机制；

（3）有机物在大气环境演变中的作用评估。这是我国大气环境管理的一个明显短板，团队针对这一难题，在VOCs源谱和化学基质更新的基础上，更新和完善区域尺度大气臭氧和二次有机气溶胶的数值模拟技术，并在国家、广东省及若干城市示范应用。