Qiongqiong Wang

Professor in Department of Atmospheric Scicence in China University of Geoscience (Wuhan)

Education Background

2013-2018     Ph.D. The Hong Kong University of Science and Technology

2009-2013     B.S. Beijing Institute of Technology

Reseach Interests

• Atmospheric chemistry

• Source apportionment

• Real-time measurement of molecular organic tracers in atmospheric aerosol

• Atmospheric evolution of organic aerosol

Awards and Honors

• 2021         IGAC Conference Early Career Scientist poster prizes

• 2018        HKUST School of Science Postgraduate Research Excellence Award

• 2018        HKUST Oversea Research Award

Publication                                                                      

1. Wang, Q., Wang, S., Cheng, Y. Y., Chen, H., Zhang, Z., Li, J., Gu, D., Wang, Z., & Yu. J. Z. (2022). Chemical evolution of secondary organic aerosol tracers during high PM2.5 episodes at a suburban site in Hong Kong over 4 months of continuous measurement. Atmospheric Chemistry and Physics, 22, 11239–11253. Link>> 

2. Wang, Q., & Yu, J. Z. (2021). Ambient Measurements of Heterogeneous Ozone Oxidation Rates of Oleic, Elaidic, and Linoleic Acid Using a Relative Rate Constant Approach in an Urban Environment, Geophysical Research Letters, e2021GL095130. Link>> 

3. Wang, Q., He, X., Zhou, M., Huang, D., Qiao, L., Zhu, S., Ma, Y., Wang, H., Li, L., Huang, C., Huang, X. H., Xu, W., Worsnop, D., Goldstein, A. H., Guo, H., & Yu, J. Z. (2020). Hourly Measurements of Organic Molecular Markers in Urban Shanghai, China: Primary Organic Aerosol Source Identification and Observation of Cooking Aerosol Aging, ACS Earth and Space Chemistry, 4, 9, 1670-1685. (Supplementory cover) Link>>

4. Li, R.^#, Wang, Q.^#, He, X., Zhu, S., Zhang, K., Duan, Y., Fu, Q., Qiao, L., Wang, Y., Huang, L., Li, L., & Yu, J. Z. (2020). Source apportionment of PM2.5 in Shanghai based on hourly molecular organic markers and other source tracers. Atmospheric Chemistry and Physics, 20, 12047-12061. Link>>

5. Wang, Q., Huang, X. H., Tam, F. C. V., Zhang, X., Liu, K. M., Yeung, C., Feng, Y., Cheng, Y. Y., Wong, Y. K., Ng, W. M., Wu, C., Zhang, Q., Zhang, T., Lau, N. T., Yuan, Z., Lau, A. K. H., & Yu, J. Z. Source apportionment of fine particulate matter in Macao, China with and without organic tracers: A comparative study using positive matrix factorization. Atmospheric Environment, 198(2019)183-193. Link>>

6. Wang, Q., Qiao, L., Zhou, M., Zhu, S., Griffith, S., Li, L., & Yu, J. Z. (2018). Source apportionment of PM2.5 using hourly measurements of elemental tracers and major constituents in an urban environment: Investigation of time resolution influence. Journal of Geophysical Research: Atmospheres, 123(10). Link>> 

7. Wang, Q., He, X., Huang, X. H., Griffith, S. M., Feng, Y., Zhang, T., Zhang, Q., Wu, D., & Yu, J. Z. (2017). Impact of secondary organic aerosol tracers on tracer-based source apportionment of organic carbon and PM2.5: a case study in the pearl river delta, China. ACS Earth and Space Chemistry, 1(9), 562-571. (report from journal: https://axial.acs.org/2018/09/19/impactful-research-acs-earth-and-space-chemistry/) Link>>

8. Wang, Q., Feng, Y., Huang, X. H., Griffith, S. M., Zhang, T., Zhang, Q., Wu, D., & Yu, J. Z. (2016). Nonpolar organic compounds as PM2.5 source tracers: Investigation of their sources and degradation in the Pearl River Delta, China. Journal of Geophysical Research: Atmospheres, 121(19). Link>>

9. Wang, Q., Huang, X. H., Zhang, T., Zhang, Q., Feng, Y., Yuan, Z., Wu, D., Lau, A. K. H., & Yu, J. Z. (2015). Organic tracer-based source analysis of PM2.5 organic and elemental carbon: A case study at Dongguan in the Pearl River Delta, China. Atmospheric Environment, 118, 164-175. Link>>

10. Zhu, S., Zhou, M., Qiao, L., Huang, D. D., Wang, Q., Wang, S., ... & Yu, J. Z. (2023). Evolution and chemical characteristics of organic aerosols during wintertime PM2.5 episodes in Shanghai, China: Insights gained from online measurements of organic molecular markers. Atmospheric Chemistry and Physics, 23, 7551–7568.

11. Wang, Y., Liang, S., Le Breton, M., Wang, Q. Q., Liu, Q., Ho, C. H., ... & Yu, J. Z (2023). Field Observational Evidence of Acid-Catalyzed Formation Mechanisms of C2 and C3 Organosulfates at a Suburban Site in Hong Kong. Science of The Total Environment, 904,166851.

12. Xing, C., Wan, Y., Wang, Q., Kong, S., Huang, X., Ge, X., ... & Yu, H. (2023). Molecular characterization of brown carbon chromophores in atmospherically‐relevant samples and their gas‐particle distribution and diurnal variation in the atmosphere. Journal of Geophysical Research: Atmospheres, e2022JD038142.

13. 陈明, 汪琼琼, 余欢*. (2023). 武汉市大气细颗粒物源解析综述, 环境科学与技术,  46(6): 197-202.

14. Li, Q., Zhang, K., Li, R., Yang, L., Yi, Y., Liu, Z., Zhang, X., Feng, J., Wang, Q., Wang, W., Huang, L., Wang, Y., Wang, S., Chen, H., Chan, A., Latif, M., Ooi, M. C. G., Manomaiphiboon, K., Yu, J. Z., & Li, L. (2023). Underestimation of biomass burning contribution to PM2. 5 due to its chemical degradation based on hourly measurements of organic tracers: A case study in the Yangtze River Delta (YRD) region, China. Science of The Total Environment, 872, 162071.

15. Liao, K., Wang, Q., Wang, S., & Yu, J. Z. (2023). Bayesian Inference Approach to Quantify Primary and Secondary Organic Carbon in Fine Particulate Matter Using Major Species Measurements. Environmental Science & Technology, 57(13), 5169-5179.

16. Li, R., Zhang, K., Li, Q., Yang, L., Wang, S., Liu, Z., Zhang, X., Chen, H., Yi, Y., Feng, J., Wang, Q., Huang, L., Wang, W., Wang, Y., Yu, J. Z., & Li, L. (2023). Characteristics and degradation of organic aerosols from cooking sources based on hourly observations of organic molecular markers in urban environments. Atmospheric Chemistry and Physics, 23(5), 3065-3081.

17. 夏瑞,谭健,汪琼琼,吴兑,孔少飞,陈楠*,邓涛,陶丽萍,张雪,吴柏禧,吴良斌,王庆,吴晟*. (2023). 基于受体模型的武汉市夏秋季大气细颗粒物消光来源解析.中国环境科学:, 43(1), 7-19. DOI:10.19674/j.cnki.issn1000-6923.20220917.007.

18. Zeng, L., Huang, D. D., Zhu, S., Li, F., Zhou, M., Qiao, L., Wang, Q., Wang, Q., Ma, Y., Lou, S., Shi, H., Hoi, K., Mok, K., Ge, X., Wang, H., Yu, J. Z., Huang, C., & Li, Y. J. (2022). The Interplays among Meteorology, Source, and Chemistry in High Particulate Matter Pollution Episodes in Urban Shanghai, China. Science of The Total Environment, 853, 158347.

19. Tian, L., Huang, D. D., Wang, Q., Zhu, S., Wang, Q., Yan, C., Nie, W., Wang, Z., Qiao, L., Liu, Y., Qiao, X., Guo, Y., Zheng, P., Jing, S., Lou, S., Wang, H., Yu, Y. Z., Huang, C., & Li, Y. J. (2022). Underestimated Contribution of Heavy Aromatics to Secondary Organic Aerosol Revealed by Comparative Assessments Using New and Traditional Methods. ACS Earth and Space Chemistry. 7, 1, 110–119.

20. Wan, Y., Huang, X., Xing, C., Wang, Q., Ge, X., & Yu, H. (2022). Chemical characterization of organic compounds involved in iodine-initiated new particle formation from coastal macroalgal emission. Atmospheric Chemistry and Physics, 22(23), 15413-15423.

21. Wang, S., Wang, Q., Zhu, S., Zhou, M., Qiao, L., Huang, D., Ma, Y., Lu, Y., Huang, C., Fu, Q., Duan, Y. & Yu, J. Z. Hourly organic tracers-based source apportionment of PM2.5 before and during the Covid-19 lockdown in suburban Shanghai, China: Insights into regional transport influences and response to urban emission reductions, Atmospheric Environment, 289(2022), 119308.

22. Wan, Y., Xing, C., Wang, X., Yang, Z., Huang, X., Ge, X., Du, L., Wang, Q., & Yu, H. (2022). Nontarget Tandem High-Resolution Mass Spectrometry Analysis of Functionalized Organic Compounds in Atmospherically Relevant Samples. Environmental Science & Technology Letters, 9(12), 1022-1029.

23. Huang, D. D., Zhu, S., An, J., Wang, Q., Qiao, L., Zhou, M., He, X., Ma, Y., Sun, Y., Huang, C., Yu, J. Z., and Zhang, Q. (2021): Comparative Assessment of Cooking Emission Contributions to Urban Organic Aerosol Using Online Molecular Tracers and Aerosol Mass Spectrometry Measurements, Environmental Science & Technology, 55(21), 14526-14535.

24. Zhang, K., Yang, L., Li, Q., Li, R., Zhang, D., Xu, W., Feng, J., Wang, Q., Wang, W., Huang, L., Yaluk, Y., Wang, Y., Yu, J. Z., & Li, L. (2021). Hourly measurement of PM2.5-bound nonpolar organic compounds in Shanghai: Characteristics, sources and health risk assessment. Science of The Total Environment, 148070.

25. Zhu, S., Wang, Q., Qiao, L., Zhou, M., Wang, S., Lou, S., Huang, D., Wang, Q., Jing, S., Wang, H., Chen, C., Huang, C., & Yu, J. Z., Tracer-based Characterization of Source Variations of PM2.5 and Organic Carbon in Shanghai Influenced by the COVID-19 Lockdown, Faraday Discussions, 2020, DOI: 10.1039/D0FD00091D.

26. He, X., Wang, Q., Huang, X. H., Huang, D., Zhou, M., Qiao, L., Zhu, S., Ma, Y., Wang, H., Li, L., Huang, C., Xu, W., Worsnop, D., Goldstein, A. H., Guo, H., & Yu, J. Z. Hourly Measurements of Organic Molecular Markers in Urban Shanghai, China: Observation of Enhanced Formation of Secondary Organic Aerosol during Particulate Matter Episodic Periods, Atmospheric Environment, 240(2020), 117807.

27. Feng, B., Song, X., Dan, M., Yu, J., Wang, Q., Shu, M., Xu, H., Wang, T., Chen, J., Zhang, Y., Zhao, Q., Wu, R., Liu, S., Yu, J. Z., & Huang, W. High level of source-specific particulate matter air pollution associated with cardiac arrhythmias. Science of The Total Environment, 657(2019) 1285-1293.

28. He, X., Huang, X. H., Chow, K. S., Wang, Q., Zhang, T., Wu, D., & Yu, J. Z. (2018). Abundance and Sources of Phthalic Acids, Benzene-Tricarboxylic Acids, and Phenolic Acids in PM2.5 at Urban and Suburban Sites in Southern China. ACS Earth and Space Chemistry, 2(2), 147-158.