Sep. 2001-Jul. 2005:

College of Environmental Sciences, Peking University

Degree: B.S. Majoring in Environmental Science in July 2001

Sep. 2005-Jul. 2011:

College of Environmental Science and Engineering, Peking University

Degree: Ph. D Majoring in Environmental Science in July 2011

1. 2011.8-2012.4: Research Scientist, College of Environmental Science and Engineering, Peking University, China

2. 2012.5-2015.1: Post-Doc, Department of Atmospheric Sciences, Texas A&M University, US

3. 2015.2-2015.6: Assistant Research Scientist, Department of Atmospheric Sciences, Texas A&M University, US

4. 2015.7-2021.7 Assistant Professor, College of Environmental Sciences and Engineering, Peking University, China

5. 2021.8-present Tenured Associate Professor, College of Environmental Sciences and Engineering, Peking University, China

6. 2016.1-2016.4 visiting scholar, Gothenburg University, Sweden

7. 2017.1-2017.2 visiting scholar, Gothenburg University, Sweden

8. 2018.12 visiting scholar, Carnegie Mellon University, US

9. 2019.9-2019.11 visiting scholar, Institute of Energy and Research, IEK-8, Forschungszentrum Jülich, Germany

10. 2019.12 visiting scholar, Carnegie Mellon University, US

1. National Natural Science Award (Second prize), China, 2019

2. Ministry of Education Natural Science Award (First prize), China, Rank, 2018

3. “Recruitment Program for Young Professionals” , 2016

4. Ministry of Ecological Environment Professional Young Top-notch Talents, 2020

5. Zeng Xianzi Teaching Award of Peking University, (one of the top teaching awards), 2020 

6. The winner in “Lecture competition for young teachers” at Peking University, 2018

7. “Excellent Online Courses” of Peking University, 2020

8. “Excellent Instructor Award” of Peking University, 2016

Song has a broad interest in atmospheric chemistry. His research involves both field measurement and laboratory study, focusing on secondary aerosol formation:

1. New particle formation and growth mechanism in highly polluted environment: conducting field measurement and chamber simulation to investigate aerosol nucleation and growth, focusing on the roles of organics

2. Secondary organic aerosol formation: using several online and offline techniques to identify SOA tracers and investigate SOA formation mechanism. The constituents of Semi-/ Intermediate Volatility Organic Compounds (S/IVOCs) from typical sources, i.e. gasoline and diesel engine, Chinese cooking, and biomass burning; Contributions of S/IVOCs on SOA.

3. Black carbon aging: conducting field measurement of chamber simulation to investigate the BC aging mechanism, and its impact on regional air quality and global climate.

Postdoctoral Research Fellow:

Wenfei Zhu (2019-preent)

Yuanzheng Gong (2020-present)

Ph.D Students:

Rongzhi Tang (2016-2020), Hui Wang (2017-), Ruizhe Shen (2018-), Kai Song (2019-), Daqi Lv (2020-), Rui Tan (2020-), Ying Yu (2021-)

Master Students：

Weizhao Xu (2016-2019), Tiantian Wang (2017-2020), Ying Yu (2019-), Zheng Chen (2020-)

Undergraduate Students:

Zepeng Wu (2016-2017), Ruizhe Shen (2017-2018), Kai Song (2018-2019), Ying Yu (2018-2019), Rui Tan (2018-2020), Zijing Zhang (2018-2020), Kefan Liu (2018-2020), Daoqin Wang (2020), Fan Fan (2019-), Yi Liu (2019-2020), Ding Ma (2020-), Hanyun Fan (2019-2020), Zichao Wan (2020-), Yang Jiao (2020-), Chaoyi Zhang (2021-), Tianyu Li, (2021-)

Editor for journals:

Associate Editor, Atmospheric Environment

Conference Convener：

American Geophysical Union, AGU (2018, 2019): Atmospheric Chemistry in Highly Polluted Environments

China Conference on Atmospheric Environmental Science and technology (2017, 2018, 2019, 2020, 2021): New particle formation and growth under polluted environment

National Standard:

Li, S.; Liu D,; Guo, S.; Hu, M.; Zhou, Z.; Huang X.; Zhu, W.; Chen, P.; Lin, Z.; Xing, M.; Zhang, Y., Guidelines on available techniques of pollution prevention and control for cooking Fume (T/ACEF 012—2020), Release: 2020-12-31, Implementation: 2021-1-1

Li, M.; Zhao, W.; Huang, K.; Hu, M.; Chen, W.; Guo, S.; Wu, Z.; Li, S.; Huo, Y.; Wang, Y.; Jiang, M.; Qi, W., Requirements for pollution control of crop straw burning (T/ACEF 022—2021), Released: 2021-1-28, Implementation: 2021-2-1

Zhao, W.; Li, M.; Zhang, S.; Hu, M.; Li, S.; Chai, Z.; Zhao, Y.; Yang, C.; Xiao, B.; Wang, R.; Guo, S.; Wu, Z.; Wang, S.; Hong, G.; Hong, H.; Wang Z.; Tian, X.; Sui, H., Technical Guidelines for pollution control of crop straw burning (T/ACEF 023—2021), Released: 2021-1-28, Implementation: 2021-2-1

Journal Articles

1. Guo, S.^#; Hu, M.^*#; Peng, J.^#; Wu, Z.; Zamora, M. L.; Shang, D.; Du, Z.; Zheng, J.; Fang, X.; Tang, R.; Wu, Y.; Zeng, L.; Shuai, S.; Zhang, W.; Wang, Y.; Ji, Y.; Li, Y.; Zhang, A. L.; Wang, W.; Zhang, F.; Zhao, J.; Gong, X.; Wang, C.; Molina, M. J.^*; Zhang, R.^*, Remarkable nucleation and growth of ultrafine particles from vehicular exhaust. P Natl Acad Sci USA 2020, 117, (7), 3427-3432.  (Highly Cited)

2. Guo, S.; Hu, M.^*; Zamora, M. L.; Peng, J. F.; Shang, D. J.; Zheng, J.; Du, Z. F.; Wu, Z.; Shao, M.; Zeng, L. M.; Molina, M. J.^*; Zhang, R. Y.^*, Elucidating severe urban haze formation in China. P Natl Acad Sci USA 2014, 111, (49), 17373-17378. (Highly Cited)

3. Peng, J. F.^#; Hu, M.; Guo, S.^#; Du, Z. F.; Zheng, J.; Shang, D. J.; Zamora, M. L.; Zeng, L. M.; Shao, M.; Wu, Y. S.; Zheng, J.; Wang, Y.; Glen, C. R.; Collins, D. R.; Molina, M. J.; Zhang, R. Y., Markedly enhanced absorption and direct radiative forcing of black carbon under polluted urban environments. P Natl Acad Sci USA 2016, 113, (16), 4266-4271. (Highly Cited)

4. Wang, G. H.; Zhang, R. Y.; Gomez, M. E.; Yang, L. X.; Zamora, M. L.; Hu, M.; Lin, Y.; Peng, J. F.; Guo, S.; Meng, J. J.; Li, J. J.; Cheng, C. L.; Hu, T. F.; Ren, Y. Q.; Wang, Y. S.; Gao, J.; Cao, J. J.; An, Z. S.; Zhou, W. J.; Li, G. H.; Wang, J. Y.; Tian, P. F.; Marrero-Ortiz, W.; Secrest, J.; Du, Z. F.; Zheng, J.; Shang, D. J.; Zeng, L. M.; Shao, M.; Wang, W. G.; Huang, Y.; Wang, Y.; Zhu, Y. J.; Li, Y. X.; Hu, J. X.; Pan, B.; Cai, L.; Cheng, Y. T.; Ji, Y. M.; Zhang, F.; Rosenfeld, D.; Liss, P. S.; Duce, R. A.; Kolb, C. E.; Molina, M. J., Persistent sulfate formation from London Fog to Chinese haze. P Natl Acad Sci USA 2016, 113, (48), 13630-13635. (Highly Cited)

5. Zhang, R. Y.; Wang, G. H.; Guo, S.; Zarnora, M. L.; Ying, Q.; Lin, Y.; Wang, W. G.; Hu, M.; Wang, Y., Formation of Urban Fine Particulate Matter. Chem. Rev. 2015, 115, (10), 3803-3855. (Highly Cited)

6. Xu, W.; Gomez-Hernandez, M.; Guo, S.; Secrest, J.; Marrero-Ortiz, W.; Zhang, A. L.; Zhang, R. Y., Acid-Catalyzed Reactions of Epoxides for Atmospheric Nanoparticle Growth. J Am Chem Soc 2014, 136, (44), 15477-15480.

7. Guo, S. ^*; Hu, M.; Lin, Y.; Gomez-Hernandez, M.; Zamora, M. L.; Peng, J. F.; Collins, D. R.; Zhang, R. Y. ^*, OH-Initiated Oxidation of m-Xylene on Black Carbon Aging. Environ. Sci. Technol. 2016, 50, (16), 8605-8612.

8.  Guo, S.; Hu, M. ^*; Guo, Q. F.; Zhang, X.; Zheng, M.; Zheng, J.; Chang, C. C.; Schauer, J. J.; Zhang, R. Y., Primary Sources and Secondary Formation of Organic Aerosols in Beijing, China. Environ. Sci. Technol. 2012, 46, (18), 9846-9853.

9. Wang, Y. J.; Hu, M.; Lin, P.; Tan, T. Y.; Li, M. R.; Xu, N.; Zheng, J.; Du, Z. F.; Qin, Y. H.; Wu, Y. S.; Lu, S. H.; Song, Y.; Wu, Z. J.; Guo, S.; Zeng, L. W.; Huang, X. F.; He, L. Y., Enhancement in Particulate Organic Nitrogen and Light Absorption of Humic-Like Substances over Tibetan Plateau Due to Long-Range Transported Biomass Burning Emissions. Environ. Sci. Technol. 2019, 53, (24), 14222-14232.

10. Wang, Y.; Hu, M.; Lin, P.; Tan, T.; Li, M.; Xu, N.; Zheng, J.; Du, Z.; Qin, Y.; Wu, Y.; Lu, S.; Song, Y.; Wu, Z.; Guo, S.; Zeng, L.; Huang, X.; He, L., Enhancement in Particulate Organic Nitrogen and Light Absorption of Humic-Like Substances over Tibetan Plateau Due to Long-Range Transported Biomass Burning Emissions. Environ. Sci. Technol. 2019, 53, (24), 14222-14232.

11. Marrero-Ortiz, W.; Hu, M.; Du, Z.; Ji, Y.; Wang, Y.; Guo, S.; Lin, Y.; Gomez-Hermandez, M.; Peng, J.; Li, Y.; Secrest, J.; Zamora, M. L.; Wang, Y.; An, T.; Zhang, R., Formation and Optical Properties of Brown Carbon from Small α-Dicarbonyls and Amines. Environ. Sci. Technol. 2019, 53, (1), 117-126.

12. Wang, Y. J.; Hu, M.; Lin, P.; Guo, Q. F.; Wu, Z. J.; Li, M. R.; Zeng, L. M.; Song, Y.; Zeng, L. W.; Wu, Y. S.; Guo, S.; Huang, X. F.; He, L. Y., Molecular Characterization of Nitrogen-Containing Organic Compounds in Humic-like Substances Emitted from Straw Residue Burning. Environ. Sci. Technol. 2017, 51, (11), 5951-5961.

13. Khalizov, A. F.; Lin, Y.; Qiu, C.; Guo, S.; Collins, D.; Zhang, R., Role of OH-Initiated Oxidation of Isoprene in Aging of Combustion Soot. Environ. Sci. Technol. 2013, 47, (5), 2254-2263.

14. Hu, M.; Peng, J. F.; Sun, K.; Yue, D. L.; Guo, S.; Wiedensohler, A.; Wu, Z. J., Estimation of Size-Resolved Ambient Particle Density Based on the Measurement of Aerosol Number, Mass, and Chemical Size Distributions in the Winter in Beijing. Environ. Sci. Technol. 2012, 46, (18), 9941-9947.

15. Zhang, Z.; Zhu, W.; Hu, M.; Wang, H.; Chen, Z.; Shen, R.; Yu, Y.; Tan, R.; Guo, S., Secondary Organic Aerosol from Typical Chinese Domestic Cooking Emissions. Environ. Sci. Techno. Lett. 2020.

16. Fang, X.; Hu, M.; Shang, D.; Tang, R.; Shi, L.; Olenius, T.; Wang, Y.; Wang, H.; Zhang, Z.; Chen, S.; Yu, X.; Zhu, W.; Lou, S.; Ma, Y.; Li, X.; Zeng, L.; Wu, Z.; Zheng, J.; Guo, S., Observational Evidence for the Involvement of Dicarboxylic Acids in Particle Nucleation. Environ. Sci. Techno. Lett. 2020, 7, (6), 388-394.

17. Wang, H. C.; Lu, K. D.; Chen, X. R.; Zhu, Q. D.; Chen, Q.; Guo, S.; Jiang, M. Q.; Li, X.; Shang, D. J.; Tan, Z. F.; Wu, Y. S.; Wu, Z. J.; Zou, Q.; Zheng, Y.; Zeng, L. M.; Zhu, T.; Hu, M.; Zhang, Y. H., High N₂O₅ Concentrations Observed in Urban Beijing: Implications of a Large Nitrate Formation Pathway. Environ Sci Tech Let 2017, 4, (10), 416-420.

18. Wang, Y., Hu, M., Wang, Y. C., Li, X., Fang, X., Tang, R., Lu, S., Wu, Y., Guo, S., Wu, Z., Hallquist, M., and Yu, J. Z.: Comparative Study of Particulate Organosulfates in Contrasting Atmospheric Environments: Field Evidence for the Significant Influence of Anthropogenic Sulfate and NOx, Environ. Sci. Techno. Lett., 7, 787-794, 10.1021/acs.estlett.0c00550, 2020.

19. Wu, Z. J.; Wang, Y.; Tan, T. Y.; Zhu, Y. S.; Li, M. R.; Shang, D. J.; Wang, H. C.; Lu, K. D.; Guo, S.; Zeng, L. M.; Zhang, Y. H., Aerosol Liquid Water Driven by Anthropogenic Inorganic Salts: Implying Its Key Role in Haze Formation over the North China Plain. Environ. Sci. Techno. Lett. 2018, 5, (3), 160-166.

20. Xu, Z. N., Nie, W., Chi, X. G., Sun, P., Huang, D. D., Yan, C., Krechmer, J., Ye, P. L., Z. Xu, X., Qi, M., Zhu, C. J., Liu, Y. L., Li, Y. Y., Wang, T. Y., Wang, L., Huang, X., Tang, R. Z., Guo, S., Xiu, G. L., Fu, Q. Y., Worsnop, D., and Ding, A. J.: Multifunctional products of isoprene oxidation in polluted atmosphere and their contribution to SOA, Geophys. Res. Lett., 2020.

21. Du, H.; Li, J.; Wang, Z.; Dao, X.; Guo, S.; Wang, L.; Ma, S.; Wu, J.; Yang, W.; Chen, X.; Sun, Y., Effects of Regional Transport on Haze in the North China Plain: Transport of Precursors or Secondary Inorganic Aerosols. Geophys. Res. Lett. 2020, 47, (14).

22. Xu, W.; Guo, S.; Gomez-Hernandez, M.; Zamora, M. L.; Secrest, J.; Marrero-Ortiz, W.; Zhang, A. L.; Collins, D. R.; Zhang, R. Y., Cloud forming potential of oligomers relevant to secondary organic aerosols. Geophys. Res. Lett. 2014, 41, (18), 6538-6545.

23. Wang, H., Gao, Y., Wang, S., Wu, X., Liu, Y., Li, X., Huang, D., Lou, S., Wu, Z., Guo, S., Jing, S., Li, Y., Huang, C., Tyndall, G. S., Orlando, J. J., and Zhang, X.: Atmospheric Processing of Nitrophenols and Nitrocresols From Biomass Burning Emissions, Journal of Geophysical Research: Atmospheres, 125, 10.1029/2020JD033401, 2020.

24. Yue, D. L.; Hu, M.; Wu, Z. J.; Wang, Z. B.; Guo, S.; Wehner, B.; Nowak, A.; Achtert, P.; Wiedensohler, A.; Jung, J.; Kim, Y. J.; Liu, S., Characteristics of aerosol size distributions and new particle formation in the summer in Beijing. J. Geophys. Res.-Atmos. 2009, 114.

25. Liu, X. G.; Zhang, Y. H.; Jung, J. S.; Gu, J. W.; Li, Y. P.; Guo, S.; Chang, S. Y.; Yue, D. L.; Lin, P.; Kim, Y. J.; Hu, M.; Zeng, L. M.; Zhu, T., Research on the hygroscopic properties of aerosols by measurement and modeling during CAREBeijing-2006. J. Geophys. Res.-Atmos. 2009, 114.

26. Hu, M.^*; Guo, S.^*; Peng, J. F.; Wu, Z. J., Insight into characteristics and sources of PM2.5 in the Beijing-Tianjin-Hebei region, China. National Science Review 2015, 2, (3), 257-258.

27. Lu, K.^#; Guo, S.^#; Tan, Z.; Wang, H.; Shang, D.; Liu, Y.; Li, X.; Wu, Z.; Hu, M.^*; Zhang, Y.^*, Exploring atmospheric free-radical chemistry in China: The self-cleansing capacity and the formation of secondary air pollution. National Science Review 2019, 6, (3), 579-594.

28. Hallquist, M.; Munthe, J.; Hu, M.; Wang, T.; Chan, C. K.; Gao, J.; Boman, J.; Guo, S.; Hallquist, A. M.; Mellqvist, J.; Moldanova, J.; Pathak, R. K.; Pettersson, J. B. C.; Pleijel, H.; Simpson, D.; Thynell, M., Photochemical smog in China: scientific challenges and implications for air-quality policies. National Science Review 2016, 3, (4), 401-403.

29. Guo, S.; Hu, M.^*; Guo, Q.; Zhang, X.; Schauer, J. J.; Zhang, R., Quantitative evaluation of emission controls on primary and secondary organic aerosol sources during Beijing 2008 Olympics. Atmos. Chem. Phys. 2013, 13, (16), 8303-8314.

30. Guo, S.; Hu, M.^*; Wang, Z. B.; Slanina, J.; Zhao, Y. L., Size-resolved aerosol water-soluble ionic compositions in the summer of Beijing: implication of regional secondary formation. Atmos. Chem. Phys. 2010, 10, (3), 947-959.

31. Tang, R., Lu, Q., Guo, S.^*, Wang, H., Song, K., Yu, Y., Tan, R., Liu, K., Shen, R., Chen, S., Zeng, L., Jorga, S. D., Zhang, Z., Zhang, W., Shuai, S., and Robinson, A. L.^*: Measurement report: Distinct Emissions and Volatility Distribution of Intermediate Volatility Organic Compounds from on-road Chinese Gasoline Vehicle: Implication of High Secondary Organic Aerosol Formation Potential, Atmos. Chem. Phys., 2021

32. Tang, R. Z.; Wu, Z. P.; Li, X.; Wang, Y. J.; Shang, D. J.; Xiao, Y.; Li, M. R.; Zeng, L. M.; Wu, Z. J.; Hallquist, M.; Hu, M.; Guo, S.^*, Primary and secondary organic aerosols in summer 2016 in Beijing. Atmos. Chem. Phys. 2018, 18, (6), 4055-4068.

33. Le Breton, M.; Wang, Y. J.; Hallquist, A. M.; Pathak, R. K.; Zheng, J.; Yang, Y. D.; Shang, D. J.; Glasius, M.; Bannan, T. J.; Liu, Q. Y.; Chan, C. K.; Percival, C. J.; Zhu, W. F.; Lou, S. R.; Topping, D.; Wang, Y. C.; Yu, J. Z.; Lu, K. D.; Guo, S.^*; Hu, M.; Hallquist, M., Online gas- and particle-phase measurements of organosulfates, organosulfonates and nitrooxy organosulfates in Beijing utilizing a FIGAERO ToF-CIMS. Atmos. Chem. Phys. 2018, 18, (14), 10355-10371.

34. Salvador, C. M. G., Tang, R., Priestley, M., Li, L., Tsiligiannis, E., Le Breton, M., Zhu, W., Zeng, L., Wang, H., Yu, Y., Hu, M., Guo, S.*, and Hallquist, M.*: Ambient nitro-aromatic compounds – biomass burning versus secondary formation in rural China, Atmos. Chem. Phys., 21, 1389-1406, 10.5194/acp-21-1389-2021, 2021.

35. Shang, D. J., Hu, M.^*, Zheng, J., Qin, Y. H., Du, Z. F., Li, M. R., Fang, J. Y., Peng, J. F., Wu, Y. S., Lu, S. H., and Guo, S.^*: Particle number size distribution and new particle formation under the influence of biomass burning at a high altitude background site at Mt. Yulong (3410 m), China, Atmos. Chem. Phys., 18, 2018.

36. Zhao, G.; Tan, T.; Zhao, W.; Guo, S.; Tian, P.; Zhao, C., A new parameterization scheme for the real part of the ambient urban aerosol refractive index. Atmos. Chem. Phys. 2019, 19, (20), 12875-12885.

37. Wang, H.; Lu, K.; Guo, S.; Wu, Z.; Shang, D.; Tan, Z.; Wang, Y.; Le Breton, M.; Lou, S.; Tang, M.; Wu, Y.; Zhu, W.; Zheng, J.; Zeng, L.; Hallquist, M.; Hu, M.; Zhang, Y., Efficient N₂O₅ uptake and NO₃ oxidation in the outflow of urban Beijing. Atmos. Chem. Phys. 2018, 18, (13), 9705-9721.

38. Zamora, M. L.; Peng, J.; Hu, M.; Guo, S.; Marrero-Ortiz, W.; Shang, D.; Zheng, J.; Du, Z.; Wu, Z.; Zhang, R., Wintertime aerosol properties in Beijing. Atmos. Chem. Phys. 2019, 19, (22), 14329-14338.

39. Wang, Y.; Hu, M.; Wang, Y.; Zheng, J.; Shang, D.; Yang, Y.; Liu, Y.; Li, X.; Tang, R.; Zhu, W.; Du, Z.; Wu, Y.; Guo, S.; Wu, Z.; Lou, S.; Hallquist, M.; Yu, J., The formation of nitro-aromatic compounds under high NOx and anthropogenic VOC conditions in urban Beijing, China. Atmos. Chem. Phys. 2019, 19, (11), 7649-7665.

40. Levy Zamora, M.; Peng, J.; Hu, M.; Guo, S.; Marrero-Ortiz, W.; Shang, D.; Zheng, J.; Du, Z.; Wu, Z.; Zhang, R., Wintertime aerosol properties in Beijing. Atmos. Chem. Phys. 2019, 19, (22), 14329-14338.

41. Wang, Y.; Hu, M.; Guo, S.; Wang, Y.; Zheng, J.; Yang, Y.; Zhu, W.; Tang, R.; Li, X.; Liu, Y.; Le Breton, M.; Du, Z.; Shang, D.; Wu, Y.; Wu, Z.; Song, Y.; Lou, S.; Hallquist, M.; Yu, J., The secondary formation of organosulfates under interactions between biogenic emissions and anthropogenic pollutants in summer in Beijing. Atmos. Chem. Phys. 2018, 18, (14), 10693-10713.

42. Le Breton, M.; Hallquist, A. M.; Pathak, R. K.; Simpson, D.; Wang, Y. J.; Johansson, J.; Zheng, J.; Yang, Y. D.; Shang, D. J.; Wang, H. C.; Liu, Q. Y.; Chan, C.; Wang, T.; Bannan, T. J.; Priestley, M.; Percival, C. J.; Shallcross, D. E.; Lu, K. D.; Guo, S.; Hu, M.; Hallquist, M., Chlorine oxidation of VOCs at a semi-rural site in Beijing: significant chlorine liberation from ClNO2 and subsequent gas- and particle-phase Cl-VOC production. Atmos. Chem. Phys. 2018, 18, (17), 13013-13030.

43. Zheng, J.; Hu, M.; Du, Z. F.; Shang, D. J.; Gong, Z. H.; Qin, Y. H.; Fang, J. Y.; Gu, F. T.; Li, M. R.; Peng, J. F.; Li, J.; Zhang, Y. Q.; Huang, X. F.; He, L. Y.; Wu, Y. S.; Guo, S., Influence of biomass burning from South Asia at a high-altitude mountain receptor site in China. Atmos. Chem. Phys. 2017, 17, (11), 6853-6864.

44. Peng, J. F.; Hu, M.; Du, Z. F.; Wang, Y. H.; Zheng, J.; Zhang, W. B.; Yang, Y. D.; Qin, Y. H.; Zheng, R.; Xiao, Y.; Wu, Y. S.; Lu, S. H.; Wu, Z. J.; Guo, S.; Mao, H. J.; Shuai, S. J., Gasoline aromatics: a critical determinant of urban secondary organic aerosol formation. Atmos. Chem. Phys. 2017, 17, (17), 10743-10752.

45.Peng, J.; Hu, M.; Guo, S.; Du, Z.; Shang, D.; Zheng, J.; Zheng, J.; Zeng, L.; Shao, M.; Wu, Y.; Collins, D.; Zhang, R., Ageing and hygroscopicity variation of black carbon particles in Beijing measured by a quasi-atmospheric aerosol evolution study (QUALITY) chamber. Atmos. Chem. Phys. 2017, 17, (17), 10333-10348.

46. Hu, W.; Hu, M.; Hu, W. W.; Zheng, J.; Chen, C.; Wu, Y.; Guo, S., Seasonal variations in high time-resolved chemical compositions, sources, and evolution of atmospheric submicron aerosols in the megacity Beijing. Atmos. Chem. Phys. 2017, 17, (16), 9979-10000.

47. Guo, Q.; Hu, M.; Guo, S.; Wu, Z.; Peng, J.; Wu, Y., The variability in the relationship between black carbon and carbon monoxide over the eastern coast of China: BC aging during transport. Atmos. Chem. Phys. 2017, 17, (17), 10395-10403.

48. Peng, J. F.; Hu, M.; Wang, Z. B.; Huang, X. F.; Kumar, P.; Wu, Z. J.; Guo, S.; Yue, D. L.; Shang, D. J.; Zheng, Z.; He, L. Y., Submicron aerosols at thirteen diversified sites in China: size distribution, new particle formation and corresponding contribution to cloud condensation nuclei production. Atmos. Chem. Phys. 2014, 14, (18), 10249-10265.

49. Zheng, J.; Hu, M.; Zhang, R.; Yue, D.; Wang, Z.; Guo, S.; Li, X.; Bohn, B.; Shao, M.; He, L.; Huang, X.; Wiedensohler, A.; Zhu, T., Measurements of gaseous H2SO4 by AP-ID-CIMS during CAREBeijing 2008 Campaign. Atmos. Chem. Phys. 2011, 11, (15), 7755-7765.

50. Yue, D. L.; Hu, M.; Wu, Z. J.; Guo, S.; Wen, M. T.; Nowak, A.; Wehner, B.; Wiedensohler, A.; Takegawa, N.; Kondo, Y.; Wang, X. S.; Li, Y. P.; Zeng, L. M.; Zhang, Y. H., Variation of particle number size distributions and chemical compositions at the urban and downwind regional sites in the Pearl River Delta during summertime pollution episodes. Atmos. Chem. Phys. 2010, 10, (19), 9431-9439.

51. He, L. Y.; Lin, Y.; Huang, X. F.; Guo, S.; Xue, L.; Su, Q.; Hu, M.; Luan, S. J.; Zhang, Y. H., Characterization of high-resolution aerosol mass spectra of primary organic aerosol emissions from Chinese cooking and biomass burning. Atmos. Chem. Phys. 2010, 10, (23), 11535-11543.

52. Wang, Q.; Shao, M.; Zhang, Y.; Wei, Y.; Hu, M.; Guo, S., Source apportionment of fine organic aerosols in Beijing. Atmos. Chem. Phys. 2009, 9, (21), 8573-8585.

53. Hu, W. W.; Hu, M.; Deng, Z. Q.; Xiao, R.; Kondo, Y.; Takegawa, N.; Zhao, Y. J.; Guo, S.; Zhang, Y. H., The characteristics and origins of carbonaceous aerosol at a rural site of PRD in summer of 2006. Atmos. Chem. Phys. 2012, 12, (4), 1811-1822.

54. Zhang, J.; Liu, L.; Xu, L.; Lin, Q.; Zhao, H.; Wang, Z.; Guo, S.; Hu, M.; Liu, D.; Shi, Z.; Huang, D.; Li, W., Exploring wintertime regional haze in northeast China: role of coal and biomass burning. Atmos. Chem. Phys. 2020, 20, (9), 5355-5372.

55. Wang, T.; Du, Z.; Tan, T.; Xu, N.; Hu, M.; Hu, J.; Guo, S.^*, Measurement of aerosol optical properties and their potential source origin in urban Beijing from 2013-2017. Atmos. Environ. 2019, 206, 293-302.

56. Yu, Y., Wang, H., Wang, T., Song, K., Tan, T., Wan, Z., Gao, Y., Dong, H., Chen, S., Zeng, L., Hu, M., Wang, H., Lou, S., Zhu, W., and Guo, S.: Elucidating the importance of semi-volatile organic compounds to secondary organic aerosol formation at a regional site during the EXPLORE-YRD campaign, Atmos. Environ., 246, 118043, https://doi.org/10.1016/j.atmosenv.2020.118043, 2021

57. Wang, T., Zhao, G., Tan, T., Yu, Y., Tang, R., Dong, H., Chen, S., Li, X., Lu, K., Zeng, L., Gao, Y., Wang, H., Lou, S., Liu, D., Hu, M., Zhao, C., and Guo, S.^*: Effects of biomass burning and photochemical oxidation on the black carbon mixing state and light absorption in summer season, Atmos. Environ., 118230, https://doi.org/10.1016/j.atmosenv.2021.118230, 2021

58. Wang, X., Li, L., Gong, K., Mao, J., Hu, J., Li, J., Liu, Z., Liao, H., Qiu, W., Yu, Y., Dong, H., Guo, S., Hu, M., Zeng, L., and Zhang, Y.: Modelling air quality during the EXPLORE-YRD campaign – Part I. Model performance evaluation and impacts of meteorological inputs and grid resolutions, Atmos. Environ., 246, 10.1016/j.atmosenv.2020.118131, 2021.

59. Xu, R.; Li, X.; Dong, H.; Wu, Z.; Chen, S.; Fang, X.; Gao, J.; Guo, S.; Hu, M.; Li, D.; Liu, Y.; Liu, Y.; Lou, S.; Lu, K.; Meng, X.; Wang, H.; Zeng, L.; Zong, T.; Hu, J.; Chen, M.; Shao, M.; Zhang, Y., Measurement of gaseous and particulate formaldehyde in the Yangtze River Delta, China. Atmos. Environ. 2020, 224.

69. Guo, Q. F.; Hu, M.; Guo, S.; Wu, Z. J.; Hu, W. W.; Peng, J. F.; Hu, W.; Wu, Y. S.; Yuan, B.; Zhang, Q.; Song, Y., The identification of source regions of black carbon at a receptor site off the eastern coast of China. Atmos. Environ. 2015, 100, 78-84.

61. Yue, D. L.; Hu, M.; Wang, Z. B.; Wen, M. T.; Guo, S.; Zhong, L. J.; Wiedensohler, A.; Zhang, Y. H., Comparison of particle number size distributions and new particle formation between the urban and rural sites in the PRD region, China. Atmos. Environ. 2013, 76, 181-188.

62. Sun, X. S.; Hu, M.; Guo, S.; Liu, K. X.; Zhou, L. P., C-14-Based source assessment of carbonaceous aerosols at a rural site. Atmos. Environ. 2012, 50, 36-40.

63. Zhu, W.; Guo, S.^*; Lou, S.; Wang, H.; Yu, Y.; Xu, W.; Liu, Y.; Cheng, Z.; Huang, X.; He, L.; Zeng, L.; Chen, S.; Hu, M., A novel algorithm to determine the scattering coefficient of ambient organic aerosols. Environ. Pollut. 2020.

64. Shang, D. J.; Hu, M.; Guo, Q. F.; Zou, Q.; Zheng, J.; Guo, S., Effects of continental anthropogenic sources on organic aerosols in the coastal atmosphere of East China. Environ Pollut 2017, 229, 350-361.

65. Peng, J. F.; Hu, M.; Gong, Z. H.; Tian, X. D.; Wang, M.; Zheng, J.; Guo, Q. F.; Cao, W.; Lv, W.; Hu, W. W.; Wu, Z. J.; Guo, S., Evolution of secondary inorganic and organic aerosols during transport: A case study at a regional receptor site. Environ Pollut 2016, 218, 794-803.

66. Gomez, M. E.; Lin, Y.; Guo, S.; Zhang, R. Y., Heterogeneous Chemistry of Glyoxal on Acidic Solutions. An Oligomerization Pathway for Secondary Organic Aerosol Formation. J Phys Chem A 2015, 119, (19), 4457-4463.

67. Zhu W., Lou S.^*, Cheng Z., Yan N., Qiao L., Liu Y., Huang C., Zhou M., Guo S.^*, Seasonal variation of aerosol compositions in Shanghai, China: insights from particle aerosol mass spectrometer observations, Sci. Total Environ., 2020

68. Wang, Z.; Hu, W.; Niu, H.; Hu, W.; Wu, Y.; Wu, L.; Ren, L.; Deng, J.; Guo, S.; Wu, Z.; Zhang, D.; Fu, P.; Hu, M., Variations in physicochemical properties of airborne particles during a heavy haze-to-dust episode in Beijing. Sci Total Environ 2020.

69. Wang, Z. B.; Wu, Z. J.; Yue, D. L.; Shang, D. J.; Guo, S.; Sun, J. Y.; Ding, A. J.; Wang, L.; Jiang, J. K.; Guo, H.; Gao, J.; Cheung, H. C.; Morawska, L.; Keywood, M.; Hu, M., New particle formation in China: Current knowledge and further directions. Sci Total Environ 2017, 577, 258–266.

70. Niu, H. Y.; Hu, W.; Zhang, D. Z.; Wu, Z. J.; Guo, S.; Pian, W.; Cheng, W. J.; Hu, M., Variations of fine particle physiochemical properties during a heavy haze episode in the winter of Beijing. Sci Total Environ 2016, 571, 103-109.

71. Li, M. R.; Hu, M.; Du, B. H.; Guo, Q. F.; Tan, T. Y.; Zheng, J.; Huang, X. F.; He, L. Y.; Wu, Z. J.; Guo, S., Temporal and spatial distribution of PM2.5 chemical composition in a coastal city of Southeast China. Sci Total Environ 2017, 605, 337-346.

72. Zheng, J.; Hu, M.; Peng, J. F.; Wu, Z. J.; Kumar, P.; Li, M. R.; Wang, Y. J.; Guo, S., Spatial distributions and chemical properties of PM2.5 based on 21 field campaigns at 17 sites in China. Chemosphere 2016, 159, 480-487.

73. Zhao, G.; Yu, Y.; Tian, P.; Li, J.; Guo, S.; Zhao, C., Evaluation and correction of the ambient particle spectral light absorption measured using a filter-based aethalometer. Aerosol Air Qual Res 2020, 20, (8), 1833-1841.

74. Li, M. R.; Hu, M.; Guo, Q. F.; Tan, T. Y.; Du, B. H.; Huang, X. F.; He, L. Y.; Guo, S.; Wang, W. F.; Fan, Y. G.; Xu, D. D., Seasonal Source Apportionment of PM2.5 in Ningbo, a Coastal City in Southeast China. Aerosol Air Qual Res 2018, 18, (11), 2741-2752.

75. Du, Z. F.; Hu, M.; Peng, J. F.; Guo, S.; Zheng, R.; Zheng, J.; Shang, D. J.; Qin, Y. H.; Niu, H.; Li, M. R.; Yang, Y. D.; Lu, S. H.; Wu, Y. S.; Shao, M.; Shuai, S. J., Potential of secondary aerosol formation from Chinese gasoline engine exhaust. J Environ Sci-China 2018, 66, 348-357.

76. Tan, Y.; Wang, H.; Shi, S.; Shen, L.; Zhang, C.; Zhu, B.; Guo, S.; Wu, Z.; Song, Z.; Yin, Y.; Liu, A., Annual variations of black carbon over the Yangtze River Delta from 2015 to 2018. Journal of Environmental Sciences (China) 2020, 96, 72-84.

77. Qiao, K.; Wu, Z.; Pei, X.; Liu, Q.; Shang, D.; Zheng, J.; Du, Z.; Zhu, W.; Wu, Y.; Lou, S.; Guo, S.; Chan, C. K.; Pathak, R. K.; Hallquist, M.; Hu, M., Size-resolved effective density of submicron particles during summertime in the rural atmosphere of Beijing, China. J Environ Sci-China 2018, 73, 69-77.

78. Shang, D., Peng, J., Guo, S., Wu, Z., and Hu, M.: Secondary aerosol formation in winter haze over the Beijing-Tianjin-Hebei Region, China, Frontiers of Environmental Science and Engineering, 15, 10.1007/s11783-020-1326-x, 2021.

79. Wei, X.; Zhu, Y.; Hu, J.; Liu, C.; Ge, X.; Guo, S.; Liu, D.; Liao, H.; Wang, H., Recent Progress in Impacts of Mixing State on Optical Properties of Black Carbon Aerosol. Current Pollution Reports 2020.

80. Liu, A. K.; Wang, H. L.; Cui, Y.; Shen, L. J.; Yin, Y.; Wu, Z. J.; Guo, S.; Shi, S. S.; Chen, K.; Zhu, B.; Wang, J. H.; Kong, X. C., Characteristics of Aerosol during a Severe Haze-Fog Episode in the Yangtze River Delta: Particle Size Distribution, Chemical Composition, and Optical Properties. Atmosphere-Basel 2020, 11, (1).

81. Bai, D.; Wang, H.; Tan, Y.; Yin, Y.; Wu, Z.; Guo, S.; Shen, L.; Zhu, B.; Wang, J.; Kong, X., Optical properties of aerosols and chemical composition apportionment under different pollution levels in wuhan during january 2018. Atmosphere-Basel 2020, 11, (1).

82. Yang, Q.; Su, H.; Li, X.; Cheng, Y. F.; Lu, K. D.; Cheng, P.; Gu, J. W.; Guo, S.; Hu, M.; Zeng, L. M.; Zhu, T.; Zhang, Y. H., Daytime HONO formation in the suburban area of the megacity Beijing, China. Sci. China Chem. 2014, 57, (7), 1032-1042.

83. Guo, S.; Hu, M.^*; Shang, D. J.; Guo, Q. F.; Hu, W. W., Research on Secondary Organic Aerosols Basing on Field Measurement. Acta. Chim. Sinica. 2014, 72, (2), 145-157.

84. Guo, S.; Hu, M.^*; Guo, Q. F.; Shang, D. J., Comparison of Secondary Organic Aerosol Estimation Methods. Acta. Chim. Sinica. 2014, 72, (6), 658-666.

85. Wang, H.; Yu, Y.; Tang, R.; Guo, S.^*, Research on Formation and Aging of Secondary Organic Aerosol Based on Simulation Methods. Acta. Chim. Sinica. 2020, 78, (6), 516-527.

86. Hu, M.; Shang, D. J.; Guo, S.; Wu, Z. J., Mechanism of New Particle Formation and Growth as well as Environmental Effects under Complex Air Pollution in China. Acta Chim Sinica 2016, 74, (5), 385-391.

87. Tang, R.; Wang, H.; Liu, Y.; Guo, S.^*, Constituents of Atmospheric Semi-Volatile and Intermediate Volatility Organic Compounds and Their Contribution to Organic Aerosol. Prog. Chem. 2019, 31, (1), 180-190.

88. Gu, F. T.; Hu, M.; Zheng, J.; Guo, S., Research Progress on Particulate Organonitrates. Prog Chem 2017, 29, (9), 962-969.

89. Xiao, Y.; Wu, Z.; Guo, S.; He, L.; Huang, X.; Hu, M., Formation mechanism of secondary organic aerosol in aerosol liquid water: A review. Kexue Tongbao/Chinese Science Bulletin 2020, 65, (28-29), 3118-3133.

90. Tan, T., Guo, S., Wu, Z., He, L., Huang, X., and Hu, M.: Impact of aging process on the properties and climate effects of atmospheric black carbon aerosols, Kexue Tongbao/Chinese Science Bulletin, 65, doi: 10.1360/TB-2020-0745, 2020.

Book (chapter)

1. Hu, M.; Guo, Q.; Guo, S.; Hu, W., Characteristics of atmospheric particulate matter in coastal areas of China and its terrestrial impacts, China Environmental Science Press, 2018

2. Guo, S., Zheng, J., Hu, M. Spatial distributions, chemical properties, and sources of ambient particulate matters in China. In: Air Pollution in Eastern Asia-An Integrated Perspective. Springer International Publishing AG; 2017.