Publications

Journal Publications

Scopus: 36521979100 Google Scholar:YKfIYV0AAAAJ

2024

  1. Chang, D., Li, Q., Wang, Z.,* Dai, J., Fu, X., Guo, J., Zhu, L., Pu, D., Cuevas, C., Fernandez, R. P., Wang, W., Ge, M., Fung, J. C. H., Lau, A. K. H., Granier C., Brasseur, G., Pozzer, A., Saiz-Lopez, A., Song, Y., Wang, T.. Significant chlorine emissions from biomass burning affect the long-term atmospheric chemistry in Asia. National Science Review, nwae285, 2024.
  2. Ling, Z., Guan, H., Wang, Y., Yu, X., Sun, J., Tham, Y. J.*, Wang, X., Wang, Z., and Guo, H.: Influence of updated isoprene oxidation mechanisms on the formation of intermediate and secondary products in mcm v3.3.1, Atmospheric Environment, 325, 120466, 2024.
  3. Nie, X., Li, T., Wu, C., Zhen, J., Wang, Z., Li, Y., and Wang, Y.*: Seasonal variation of mercury in cloud water at a mountaintop in subtropical hong kong: Influences of transboundary transport and sea-salt aerosol, Science of The Total Environment, 908, 168418, 2024.
  4. Sun, H., Gu, D.*, Feng, X., Wang, Z., Cao, X., Sun, M., Ning, Z., Zheng, P., Mai, Y., Xu, Z., Chan, W. M., Li, X., Zhang, W., Lee, H. W., Leung, K. F., Yu, J. Z., Lee, E., Louie, P. K. K., and Leung, K.: Cruise observation of ambient volatile organic compounds over hong kong coastal water, Atmospheric Environment, 323, 120387, 2024.
  5. Tang, K. T. J., Lin, C., Wang, Z., Pang, S. W., Wong, T.-W., Yu, I. T. S., Fung, W. W. Y., Hossain, M. S., and Lau, A. K. H.*: Update of air quality health index (aqhi) and harmonization of health protection and climate mitigation, Atmospheric Environment, 326, 120473, 2024.
  6. Tang, M.*, Geng, L., Tong, S., Wang, Z., and Zhang, X.: Preface to “atmospheric geochemistry: A special issue endorsed by igac china working group and iagc china working group”, Applied Geochemistry, 161, 105903, 2024.
  7. Wang, F., Ho, S. S. H., Man, C. L., Qu, L., Wang, Z., Ning, Z., and Ho, K. F.*: Characteristics and sources of oxygenated vocs in hong kong: Implications for ozone formation, Science of The Total Environment, 912, 169156, 2024.
  8. Yuan, Q., Zhang, Z., Chen, Y., Hui, L., Wang, M., Xia, M., Zou, Z., Wei, W., Ho, K. F., Wang, Z., Lai, S., Zhang, Y., Wang, T., and Lee, S.*: Origin and transformation of volatile organic compounds at a regional background site in hong kong: Varied photochemical processes from different source regions, Science of The Total Environment, 908, 168316, 2024.

2023

  1. Xu Y., Hui L.R., Zheng P.G., Liu G.R., Yu J.Z., Wang Z.* Monitoring techniques of airborne carbonyl compounds: principles, performance and challenges, Trends in Analytical Chemistry, 169, 117395, 2023.
  2. Feng, X., Guo, J., Wang, Z.*, Gu, D., Ho, K.-F., Chen, Y., Liao, K., Cheung, V., Louie, P. K. K., Leung, K., Yu, J. Z., Fung, J., and Lau, A.: Investigation of the multi-year trend of surface ozone and ozone-precursor relationship in Hong Kong, Atmospheric Environment, 120139, 2023.
  3. Hui, L., Feng, X., Yuan Q., Chen, Y., Yang, X., Zheng, P., S.C. Lee, and Wang, Z.*: Abundant oxygenated volatile organic compounds and their contribution to photochemical pollution in subtropical Hong Kong, Environmental Pollution, 335, 122287, 2023.
  4. Xu Y., Feng, X., Chen, Y., Zheng, P., Hui, L., Chen, Y., Yu, J. Z., and Wang, Z.*: Development of an enhanced method for atmospheric carbonyls and characterizing their roles in photochemistry in subtropical Hong Kong, Science of The Total Environment, 165135, 2023.
  5. Zheng P, Chen, Y, Wang Z *, Liu Y, Pu W, Yu C, Xia M, Xu Y, Guo J, Guo Y, Tian L, Qiao X, Huang D, Yan C, Nie W, Worsnop D, Lee S, Wang T., Molecular characterization of oxygenated organic molecules and their dominating roles in particle growth in Hong Kong, Environ. Sci. Technol., 57, 7764-7776, 2023.
  6. Li F, Huang D D, Nie W, Tham Y, Lou S, Li Y, Tian L, Liu Y, Zhou M, Wang H, Qiao L, Wang H, Wang, Z*, Huang C*, Li Y.* Observation of Nitrogen Oxide-Influenced Chlorine Chemistry and Source Analysis of Cl2 in the Yangtze River Delta, China, Atmos. Environ., 306, 119829, 2023.
  7. Guo, J., Zhang, X.*, Gao, Y., Wang, Z., Zhang, M., Xue, W., Herrmann, H., Brasseur, G. P., Wang, T., and Wang, Z.*. The evolution of ozone pollution in China: what track will it follow? Environ. Sci. Technol., 57:109-117, 2023.
  8. Yan, C., Tham, Y. J., Nie, W., Xia, M., Wang, H., Guo, Y., Ma, W., Zhan, J., Hua, C., Li, Y., Deng, C., Li, Y., Zheng, F., Chen, X., Li, Q., Zhang, G., Mahajan, A. S., Cuevas, C. A., Huang, D. D., Wang, Z., Sun, Y., Saiz-Lopez, A., Bianchi, F., Kerminen, V.-M., Worsnop, D. R., Donahue, N. M., Jiang, J., Liu, Y., Ding, A., and Kulmala, M.: Increasing contribution of nighttime nitrogen chemistry to wintertime haze formation in beijing observed during covid-19 lockdowns, Nature Geoscience, 2023.
  9. Jiang Y, Xia M, Wang Z, Zheng P, Chen Y, Wang T.* Photochemical ageing of aerosols contributes significantly to the production of atmospheric formic acid. Atmos. Chem. Phys., 23: 14813-14828, 2023.
  10. Zou, Z., Chen, Q., Xia, M., Yuan, Q., Chen, Y., Wang, Y., Xiong, E., Wang, Z., and Wang, T.*: OH measurements in the coastal atmosphere of south china: Possible missing oh sinks in aged air masses, Atmos. Chem. Phys., 23, 7057-7074, 2023.
  11. Xie, Q., Tham, Y. J., Yu, X., Wang, Z., Ling, Z.*, Wang, X.*, Guo, H., and Wang, T.: Seasonal variations of o3 formation mechanism and atmospheric photochemical reactivity during severe high O3 pollution episodes in the pearl river delta region, Atmospheric Environment, 309, 119918, 2023.
  12. Wang S, Wang Q, Cheng YY, Chen H, Zhang Z, Li J, Feng X, Wang Z, Yu JZ*. Molecular and Elemental Tracers-Based Receptor Modeling of PM2.5 in Suburban Hong Kong With Hourly Time-Scale Air Quality Considerations. Journal of Geophysical Research: Atmospheres, 128: e2023JD039875, 2023.
  13. Wang, Y., Zhang, Z., Chow, W. S., Wang, Z., Yu, J. Z., Chi-Hung Fung, J., and Shi, X.*: Investigating the effect of aerosol uncertainty on convective precipitation forecasting in south china’s coastal area, Journal of Geophysical Research: Atmospheres, 128, e2023JD038694, 2023.
  14. Li T, Mao H, Wang Z, Yu JZ, Li S, Nie X, Herrmann H, Wang Y*. Field Evidence for Asian Outflow and Fast Depletion of Total Gaseous Mercury in the Polluted Coastal Atmosphere. Environ. Sci. Technol., 57: 4101-4112, 2023.
  15. Tian L, Huang DD*, Li YJ*, Yan C, Nie W, Wang Z, Wang Q, Qiao L, Zhou M, Zhu S, Liu Y, Guo Y, Qiao X, Zheng P, Jing Sa, Lou S, Wang H, Huang C. Enigma of Urban Gaseous Oxygenated Organic Molecules: Precursor Type, Role of NOx, and Degree of Oxygenation. Environ. Sci. Technol., 57: 64-75, 2023.
  16. Qiao X, Li X, Yan C, Sarnela N, Yin R, Guo Y, Yao L, Nie W, Huang D, Wang Z, Bianchi F, Liu Y, Donahue NM, Kulmala M, Jiang J*. Precursor apportionment of atmospheric oxygenated organic molecules using a machine learning method. Environmental Science: Atmospheres, 3, 230-237, 2023.
  17. Liu, Y., Liu, C., Nie, W. *, Li, Y., Ge, D., Chen, L., Zhu, C., Wang, L., Zhang, Y., Liu, T., Qi, X., Wang, J., Huang, D., Wang, Z., Yan, C., Chi, X., and Ding, A.: Exploring condensable organic vapors and their co-occurrence with pm2.5 and o3 in winter in eastern china, Environmental Science: Atmospheres, 3, 282-297, 2023.
  18. Wang J, Xie T, Liu X, Wu D, Li Y, Wang Z, Fan X, Zhang F, Peng W*. Enhanced redox cycle of Fe3+/Fe2+ on Fe@NC by boron: Fast electron transfer and long-term stability for Fenton-like reaction. Journal of Hazardous Materials,  445: 130605, 2023.

2022

  1. Chen, Y., Tan, Y., Zheng, P., Wang, Z.*, Zou Z., Ho, K-F, Lee, S.*, Wang, T..Effect of NO2 on nocturnal chemistry of isoprene: gaseous oxygenated products and secondary organic aerosol formation, Science of the Total Environment, 842, 156908, doi.org/10.1016/j.scitotenv.2022.156908, 2022.
  2. Niu, Y., Zhu, B., He. L., Wang, Z.*, Lin, X., Tang, M., Huang X. F*. Fast nocturnal heterogeneous chemistry in a coastal background atmosphere and its implications for daytime photochemistry. Journal of Geophysical Research-Atmospheres, e2022JD036716, doi.org/10.1029/2022JD036716, 2022.
  3. Nie, W.#, Yan, C.#, Huang, D. D.#, Wang, Z.# (# equal first author), Liu, Y., Qiao, X., Guo, Y., Tian, L., Zheng, P., Xu, Z., Li, Y., Xu, Z., Qi, X., Sun, P., Wang, J., Zheng, F., Li, X., Yin, R., Dallenbach, K. R., Bianchi, F., Petäjä, T., Zhang, Y., Wang, M., Schervish, M., Wang, S., Qiao, L., Wang, Q., Zhou, M., Wang, H., Yu, C., Yao, D., Guo, H., Ye, P., Lee, S., Li, Y. J., Liu, Y., Chi, X., Kerminen, V.-M., Ehn, M., Donahue, N. M., Wang, T., Huang, C., Kulmala, M., Worsnop, D., Jiang, J., and Ding, A.: Secondary organic aerosol formed by condensing anthropogenic vapours over China’s megacities, Nature Geoscience, 2022.
  4. Chen, Y., Zheng, P., Wang, Z.*, Pu, W., Tan, Y., Yu, C., Xia, C., Wang, W., Guo, J., Huang, D., Yan, C., Nie, W., Ling, Z., Chen, Q., Lee S., Wang, T.. Secondary formation and impacts of gaseous nitro-phenolic compounds in the continental outflow observed at a background site in South China, Environ. Sci. Technol., 56 (11), 6933-6943, doi.org/10.1021/acs.est.1c04596, 2022.
  5. Liu, Q., Gao, Y., Huang, W., Ling, Z.*, Wang, Z.*, and Wang, X.: Carbonyl compounds in the atmosphere: A review of abundance, source and their contributions to O3 and SOA formation, Atmospheric Research, 106184, 2022.
  6. Tian L, Huang DD*, Wang Q, Zhu S, Wang Q, Yan C, Nie W, Wang Z, Qiao L, Liu Y, Qiao X, Guo Y, Zheng P, Jing Sa, Lou S, Wang H, Yu JZ, Huang C, Li YJ*. Underestimated Contribution of Heavy Aromatics to Secondary Organic Aerosol Revealed by Comparative Assessments Using New and Traditional Methods. ACS Earth and Space Chemistry 2022.
  7. Xia, M., Wang, T.*, Wang, Z., Chen, Y., Peng, X., Huo, Y., Wang, W., Yuan, Q., Jiang, Y., Guo, H., Lau, C., Leung, K., Yu, A., and Lee, S.: Pollution-Derived Br2 Boosts Oxidation Power of the Coastal Atmosphere, Environ. Sci. Technol., 2022.
  8. Guo, Y., Yan, C., Liu, Y., Qiao, X., Zheng, F., Zhang, Y., Zhou, Y., Li, C., Fan, X., Lin, Z., Feng, Z., Zhang, Y., Zheng, P., Tian, L., Nie, W., Wang, Z., Huang, D., Daellenbach, K. R., Yao, L., Dada, L., Bianchi, F., Jiang, J., Liu, Y., Kerminen, V. M., and Kulmala, M.: Seasonal variation in oxygenated organic molecules in urban Beijing and their contribution to secondary organic aerosol, Atmos. Chem. Phys., 22, 10077-10097, 2022.
  9. Wang, Q., Wang, S., Cheng, Y. Y., Chen, H., Zhang, Z., Li, J., Gu, D., Wang, Z., and Yu, J. Z.*: 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, Atmos. Chem. Phys., 22, 11239-11253, 2022.
  10. Chen, Y., Fung, J. C. H., Huang, Y., Lu, X.*, Wang, Z., Louie, P. K. K., Chen, W., Yu, C. W., Yu, R., and Lau, A. K. H.: Temporal Source Apportionment of PM2.5 Over the Pearl River Delta Region in Southern China, Journal of Geophysical Research: Atmospheres, 127, e2021JD035271, 2022.
  11. Wang, K., Wang, W.*, Fan, C., Li, J., Lei, T., Zhang, W., Shi, B., Chen, Y., Liu, M., Liao, C., Wang, Z., Ge, M.*. Reactions of C12–C14 n-alkylcyclohexanes with Cl atoms: Kinetics and secondary organic aerosol formation. Environ. Sci. Technol., doi.org/10.1021/acs.est.1c08958, 2022.
  12. Guo, J., Wang, Z., Cui, Y., Zhang, X.*. Assessment of the H2O2 budget at an urban site concerning the HO2 underprediction and the vertial transport from residual layers. Atmospheric Environment, 118952, 2022.
  13. Liu, X., Wang, J., Wu, D., Wang, Z., Li, Y., Fan, X., Zhang, F., Zhang, G., and Peng, W.*: N-doped carbon dots decorated 3D g-C3N4 for visible-light driven peroxydisulfate activation: Insights of non-radical route induced by Na+ doping, Applied Catalysis B: Environmental, 310, 121304, 2022.
  14. Jiang T, Wang Y, Guo Z, Luo H, Zhan C, Wang Y, Wang Z, Jiang F, Chen H*. Bi25FeO40/Bi2O2CO3 piezoelectric catalyst with built-in electric fields that was prepared via photochemical self-etching of Bi25FeO40 for 4-chlorophenol degradation. Journal of Cleaner Production, 341: 130908, 2022.

2021

  1. Qiao, X., Yan, C., Li, X., Guo, Y., Yin, R., Deng, C., Li, C., Nie, W., Wang, M., Cai, R., Huang, D., Wang, Z., Yao, L., Worsnop, D. R., Bianchi, F., Liu, Y., Donahue, N. M., Kulmala, M., and Jiang, J.: Contribution of Atmospheric Oxygenated Organic Compounds to Particle Growth in an Urban Environment, Environ. Sci. Technol, 55, 13646-13656, 2021.
  2. Liu, Y., Nie, W., Li, Y., Ge, D., Liu, C., Xu, Z., Chen, L., Wang, T., Wang, L., Sun, P., Qi, X., Wang, J., Xu, Z., Yuan, J., Yan, C., Zhang, Y., Huang, D., Wang, Z., Donahue, N. M., Worsnop, D., Chi, X., Ehn, M., and Ding, A.: Formation of condensable organic vapors from anthropogenic and biogenic VOCs is strongly perturbed by NOx in eastern China, Atmos. Chem. Phys., 2021, 1-44, 10.5194/acp-2021-364, 2021.
  3. Xia, M., Peng, X., Wang, W., Yu, C., Wang, Z., Tham, Y. J., Chen, J., Chen, H., Mu, Y., Zhang, C., Liu, P., Xue, L., Wang, X., Gao, J., Li, H., and Wang, T.: Winter ClNO2 formation in the region of fresh anthropogenic emissions: seasonal variability and insights into daytime peaks in northern China, Atmos. Chem. Phys., 21, 15985-16000, 2021.
  4. Wen, H., Zhou, Y., Xu, X., Wang, T., Chen, Q., Chen, Q., Li, W., Wang, Z., Huang, Z., Zhou, T., Shi, J., Bi, J., Ji, M., and Wang, X.: Water-soluble brown carbon in atmospheric aerosols along the transport pathway of Asian dust: Optical properties, chemical compositions, and potential sources, Science of The Total Environment, 789, 147971, 2021.
  5. Cheng, X., Chen, Q.*, Li, Y., Huang, G., Liu, Y., Lu, S., Zheng, Y., Qiu, W., Lu, K., Qiu, X., Bianchi, F., Yan, C., Yuan, B., Shao, M., Wang, Z., Canagaratna, M. R., Zhu, T., Wu, Y., and Zeng, L.: Secondary Production of Gaseous Nitrated Phenols in Polluted Urban Environments, Environ. Sci. Technol., 2021.
  6. Wang, Y.*, Jia, S., Wang, Z., Chen, Y., Mo, S., and Sze, N. N.: Planning considerations of green corridors for the improvement of biodiversity resilience in suburban areas, Journal of Infrastructure Preservation and Resilience, 2, 6, 2021.
  7. Yu, C., Wang, Z.*, Ma, Q., Xue, L., George, C., and Wang, T.*: Measurement of heterogeneous uptake of NO2 on inorganic particles, sea water and urban grime, Journal of Environmental Sciences, 106, 124-135, 2021.
  8. Hui, L., Ma, T., Gao, Z., Gao, J.*, Wang, Z., Xue, L., Liu, H., and Liu, J.: Characteristics and sources of volatile organic compounds during high ozone episodes: A case study at a site in the eastern Guanzhong Plain, China, Chemosphere, 265, 129072, 2021.
  9. Chen, J., Fu, X., Chen, H.*, and Wang, Z.: Simultaneous Gd2O3 clusters decoration and O-doping of g-C3N4 by solvothermal-polycondensation method for reinforced photocatalytic activity towards sulfamerazine, Journal of Hazardous Materials, 402, 123780, 2021.

2020

  1. Ling, Z., Xie, Q., Shao, M., Wang, Z.*, Wang, T., Guo, H., and Wang, X.*: Formation and sink of glyoxal and methylglyoxal in a polluted subtropical environment: observation-based photochemical analysis and impact evaluation, Atmos. Chem. Phys., 20, 11451-11467, 2020.
  2. Yu, C., Wang, Z.*, Xia, M., Fu, X., Wang, W., Tham, Y. J., Chen, T., Zheng, P., Li, H., Shan, Y., Wang, X., Xue, L., Zhou, Y., Yue, D., Ou, Y., Gao, J., Lu, K., Brown, S. S., Zhang, Y., and Wang, T.*: Heterogeneous N2O5 reactions on atmospheric aerosols at four Chinese sites: Improving model representation of uptake parameters, Atmos. Chem. Phys., 20, 4367-4378, 2020.
  3. Li T, Wang, Z.*, Wang Y, Wu, C., Liang, Y., Xia, M., Yu, C., Yun, H., Wang, W., Wang, Y., Guo, J., Herrmann, H., and Wang, T.: Chemical characteristics of cloud water and the impacts on aerosol properties at a subtropical mountain site in Hong Kong SAR, Atmos. Chem. Phys., 20, 391-407, 2020.
  4. Liu, C., Wang, H., Ma, Q., Ma, J., Wang, Z., Liang, L., Xu, W., Zhang, G., Zhang, X., Wang, T., and He, H.: Efficient conversion of NO to NO2 on SO2-aged MgO under atmospheric conditions, Environ. Sci. Technol., 10.1021/acs.est.0c05071, 2020.
  5. Peng, C., Wang, Y., Wu, Z., Chen, L., Huang, R. J., Wang, W., Wang, Z., Hu, W., Zhang, G., Ge, M., Hu, M., Wang, X., and Tang, M.: Tropospheric aerosol hygroscopicity measurements in China, Atmos. Chem. Phys., https://doi.org/10.5194/acp-2020-386, 2020.
  6. Xia, M., Peng, X., Wang, W., Yu, C., Sun, P., Li, Y., Liu, Y., Xu, Z., Wang, Z., Xu, Z., Nie, W., Ding, A., and Wang, T.*: Significant production of ClNO2 and possible source of Cl2 from N2O5 uptake at a suburban site in eastern China, Atmos. Chem. Phys., 1-25, 10.5194/acp-2019-1130, 2020.
  7. Li, Y., Nie, W.*, Liu, Y., Huang, D., Xu, Z., Peng, X., George, C., Yan, C., Tham, J. Y., Yu, C., Xia, M., Fu, X., Wang, X., Xue, L., Wang, Z., Xu, Z., Chi, X., Wang, T., and Ding, A.: Photo-induced Production of Chlorine Molecules from Titanium Dioxide Surfaces Containing Chloride, Environ. Sci. Technol. Lett., 10.1021/acs.estlett.9b00704, 2020.
  8. Yu, Y., Wu, S., Gu, J., Liu, R., Wang, Z., Chen, H., and Jiang, F.: Visible-light photocatalytic degradation of bisphenol A using cobalt-to-oxygen doped graphitic carbon nitride with nitrogen vacancies via metal-to-ligand charge transfer, J. Hazard. Mater., 384, 121247, 2020.
  9. Guo, L., Peng, C., Zong, T., Gu, W., Ma, Q., Wu, Z., Wang, Z., Ding, X., Hu, M., Wang, X., and Tang, M.: Comprehensive characterization of hygroscopic properties of methanesulfonates, Atmospheric Environment, 224, 117349, 2020.
  10. Wang, X., Gemayel, R., Hayeck, N., Perrier, S., Charbonnel, N., Xu, C., Chen, H., Zhu, C., Zhang, L., Wang, L., Nizkorodov, S. A., Wang, X., Wang, Z., Wang, T., Mellouki, A., Riva, M., Chen, J., and George, C.*: Atmospheric Photosensitization: A New Pathway for Sulfate Formation, Environ. Sci. Technol., 54, 3114-3120, 2020.

2019

  1. Zhao W., Wang, Z.*, Li, S., Li, L., Wei, L., Xie, Q., Yue, S., Li, T., Liang, Y., Sun, Y., Wang, Z., Li, X., Kawamura, K., Wang, T., and Fu, P.*. Water-soluble low molecular weight organics in cloud water at Mt. Tai Mo Shan, Hong Kong. Sci. Total Environ., 697, 134095, 2019.
  2. Chang D., Wang, Z.*, Guo, J., Li, T., Liang, Y., Kang, L., Xia M., Wang, Y., Yu, C., Yun, H., Yue, D., and Wang, T.: Characterization of organic aerosols and their precursors in southern China during a severe haze episode in January 2017, Sci. Total Environ.691, 101-111, 2019.
  3. He, Z., Wang, X., Ling, Z.*, Zhao, J., Guo, H., Shao, M., and Wang, Z.*: Contributions of different anthropogenic volatile organic compound sources to ozone formation at a receptor site in the Pearl River Delta region and its policy implications, Atmos. Chem. Phys., 19, 8801-8816, 2019. [Highly cited paper]
  4. Guo, J., Wang, Z.*, Wang, T., and Zhang X..: Theoretical evaluation of different factors affecting the HO2 uptake coefficient driven by aqueous-phase first-order loss reaction, Sci. Total Environ., 683, 146-153, 2019.
  5. Ling, Z., He, Z., Wang, Z.*, Shao, M., and Wang, X.*: Sources of MACR and MVK and their contributions to methylglyoxal and formaldehyde at a receptor site in Pearl River Delta, J. Environ. Sci., https://doi.org/10.1016/j.jes.2018.12.001, 2019.
  6. Tang, M., Chan, C. K., Li, Y. J., Su, H., Ma, Q., Wu, Z., Zhang, G., Wang, Z., Ge, M., Hu, M., He, H., and Wang, X.: A review of experimental techniques for aerosol hygroscopicity studies, Atmos. Chem. Phys., 19, 12631-12686, 10.5194/acp-2019-398, 2019.
  7. Xia, M., Wang, W., Wang, Z., Gao, J., Li, H., Liang, Y., Yu, C., Zhang, Y., Wang, P., Zhang, Y., Bi, F., Cheng, X., and Wang, T.: Heterogeneous Uptake of N2O5 in Sand Dust and Urban Aerosols Observed during the Dry Season in Beijing, Atmosphere, 10, 204, 2019.
  8. Tang, M., Zhang, H., Gu, W., Gao, J., Jian, X., Shi, G., Zhu, B., Xie, L., Guo, L., Gao, X.,Wang, Z., Zhang, G., and Wang, X.: Hygroscopic Properties of Saline Mineral Dust From Different Regions in China: Geographical Variations, Compositional Dependence, and Atmospheric Implications, J Geophys Res Atmos, 124, 10844-10857, 2019.
  9. Yan, C., Tham, Y. J., Zha, Q., Wang, X., Xue, L., Dai, J., Wang, Z., and Wang, T.: Fast heterogeneous loss of N2O5 leads to significant nighttime NOx removal and nitrate aerosol formation at a coastal background environment of southern China, Science of The Total Environment, 677, 637-647, 2019.
  10. Chen, L., Chen, Y., Chen, L., Gu, W., Peng, C., Luo, S., Song, W., Wang, Z., and Tang, M.: Hygroscopic Properties of 11 Pollen Species in China, ACS Earth and Space Chemistry, 10.1021/acsearthspacechem.9b00268, 2019.
  11. Tang, M., Guo, L., Bai, Y., Huang, R.-J., Wu, Z., Wang, Z., Zhang, G., Ding, X., Hu, M., and Wang, X.: Impacts of methanesulfonate on the cloud condensation nucleation activity of sea salt aerosol, Atmos. Environ, 201, 13-17, 2019.
  12. Fu, X., Wang, T., Zhang, L., Li, Q., Wang, Z., Xia, M., Yun, H., Wang, W., Yu, C., Yue, D., Zhou, Y., Zheng, J., and Han, R.: Significant contribution of HONO to secondary pollutants during a severe winter pollution event in southern China, Atmos. Chem. Phys., 2018, 1-28, 10.5194/acp-2018-853, 2018.

2018 and before

  1. Wang, W., Wang, Z.*, Yu, C., Xia, M., Peng, X., Zhou, Y., Yue, D., Ou, Y., and Wang, T.*: An in-situ flow-tube system for direct measurement of N2O5 heterogeneous uptake coefficients in polluted environments, Atmos. Meas. Tech., 2018, 10.5194/amt-2018-183, 2018.
  2. Tham, Y. J., Wang, Z.*, Li, Q., Wang, W., Wang, X., Lu, K., Ma, N., Yan, C., Kecorius, S., Wiedensohler, A., Zhang, Y., and Wang, T.*: Heterogeneous N2O5 uptake coefficient and production yield of ClNO2 in polluted northern China: Roles of aerosol water content and chemical composition, Atmos. Chem. Phys., 2018, 18, 13155-13171, 2018.
  3. Yun, H., Wang, W., Wang, T., Xia, M., Yu, C., Wang, Z., Poon, S. C. N., Yue, D., and Zhou, Y.: Nitrate formation from heterogeneous uptake of dinitrogen pentoxide during a severe winter haze in southern China, Atmos. Chem. Phys., 18, 17515-17527, 2018.
  4. Luo, Y., Zhou, X.*, Zhang, J., Xiao, Y., Wang, Z., Zhou, Y., and Wang, W.: PM2.5 pollution in a petrochemical industry city of northern China: Seasonal variation and source apportionment, Atmos. Res., 212, 285-295, 2018.
  5. Yuan, J., Zhenhao Ling, Wang, Z, Xi Lu, Shaojia Fan, Zhuoran He, Hai Guo, Xuemei Wang, Nan Wang. PAN-precursor relationship and process analysis of PAN formation in the Pearl River Delta region, Atmosphere, 9(10), 372, 2018.
  6. Li, T., Wang, Y., Mao, H., Wang, S., Talbot, R. W., Zhou, Y., Wang, Z., Nie, X., and Qie, G.: Insights on Chemistry of Mercury Species in Clouds over Northern China: Complexation and Adsorption, Environ. Sci. Technol., 10.1021/acs.est.7b06669, 10.1021/acs.est.7b06669, 2018.
  7. Li, Q., Zhang, L., Wang, T., Wang, Z., Fu, X., and Zhang, Q.: “New” Reactive Nitrogen Chemistry Reshapes the Relationship of Ozone to Its Precursors, Environ. Sci. Technol., 10.1021/acs.est.7b05771, 10.1021/acs.est.7b05771, 2018.
  8. Yang, M., Wang, Y., Li, H., Li, T., Nie, X., Cao, F., Yang, F., Wang, Z., Wang, T., Qie, G., Jin, T., Du, L., and Wang, W.: Polycyclic aromatic hydrocarbons (PAHs) associated with PM2.5 within boundary layer: Cloud/fog and regional transport, Sci. Total Environ., 627, 613-621, 2018.
  9. Yun, H., Wang, T., Wang, W., Tham, Y. J., Li, Q., Wang, Z., and Poon, S. C. N.: Nighttime NOx loss and ClNO2 formation in the residual layer of a polluted region: Insights from field measurements and an iterative box model, Sci. Total Environ., 622–623, 727-734, 2018.
  10. Zhang, J., Zhou, X., Wang, Z., Yang, L., Wang, J., and Wang, W.: Trace elements in PM2.5 in Shandong Province: Source identification and health risk assessment, Sci. Total Environ., 621, 558-577, 2018.
  11. Wang, Z., Wang, W., Tham, Y. J., Li, Q., Wang, H., Wen, L., Wang, X., and Wang, T.: Fast heterogeneous N2O5 uptake and ClNO2 production in power plant and industrial plumes observed in the nocturnal residual layer over the North China Plain, Atmos. Chem. Phys., 17, 12361-12378, 2017.
  12. Yang, F., Wang, Y., Li, H., Yang, M., Li, T., Cao, F., Chen, J., and Wang, Z.: Influence of Cloud/Fog on Atmospheric VOCs in the Free Troposphere: A Case Study at Mount Tai in Eastern China, Aerosol and Air Quality Research, 17, 2401-2412, 10.4209/aaqr.2016.12.0536, 2017.
  13. Yun, H., Wang, Z., Zha, Q., Wang, W., Xue, L., Zhang, L., Li, Q., Cui, L., Lee, S., Poon, S. C. N., and Wang, T.: Nitrous acid in a street canyon environment: Sources and contributions to local oxidation capacity, Atmos. Environ., 167, 223-234, 2017.
  14. Wu, R., Zhou, X., Wang, L., Wang, Z., Zhou, Y., Zhang, J., and Wang, W.: PM2.5 Characteristics in Qingdao and across Coastal Cities in China, Atmosphere, 8, 77, 2017.
  15. Liang, Y.; Zha, Q.; Wang, W.; Cui, L.; Lui, K. H.; Ho, K. F.; Wang, Z.; Lee, S.-c.; Wang, T., Revisiting Nitrous Acid (HONO) Emission from On-road Vehicles: A Tunnel Study with a Mixed Fleet. J Air Waste Manag Assoc., 67, 797-805, 2017.
  16. Cheng, L.; Lau, W. K. W.; Fung, T. K. H.; Lau, B. W. M.; Chau, B. K. H.; Liang, Y.; Wang, Z.; So, K. F.; Wang, T.; Chan, C. C. H.; Lee, T. M. C., PM2.5 Exposure Suppresses Dendritic Maturation in Subgranular Zone in Aged Rats. Neurotoxicity Research 2017, 1-8.
  17. Ma, Q., T. Wang, C. Liu, H. He, Z. Wang, W. Wang and Y. Liang. SO2 Initiates the Efficient Conversion of NO2 to HONO on MgO Surface. Environ Sci Technol, 51, 3767-3775, 2017.
  18. Wang, X., H. Wang, L. Xue, T. Wang, L. Wang, R. Gu, W. Wang, Y. J. Tham, Z. Wang, L. Yang, J. Chen and W. Wang. Observations of N2O5 and ClNO2 at a polluted urban surface site in North China: High N2O5 uptake coefficients and low ClNO2 product yields. Atmos. Environ., 156, 125-134, 2017.
  19. Tham, Y., Wang, Z., Li, Q., Yun, H., Wang, W., Wang, X., Xue, L., Lu, K., Ma, N., Bohn, B., Li, X., Kecorius, S., Größ, J., Shao, M., Wiedensohler, A., Zhang, Y., and Wang, T.: Significant concentrations of nitryl chloride sustained in the morning: Investigations of the causes and impacts on ozone production in a polluted region of northern China, Atmos. Chem. Phys., 16, 14959-14977, 2016.
  20. Chen, H.; Li, T.; Jiang, F.; Wang, Z., Enhanced catalytic reduction of N-nitrosodimethylamine over bimetallic Pd-Ni catalysts. J. Mol. Catal. A-Chem. 421, 167-177, 2016.
  21. Sun, L., Xue, L., Wang, T., Gao, J., Ding, A., Cooper, O. R., Xu, P., Wang, Z., Wang, X., Wen, L., Zhu, Y., Chen, T., Yang, L., Wang, Y., Chen, J., and Wang, W.: Significant increase of summertime ozone at Mt. Tai in Central Eastern China: 2003–2015, Atmos. Chem. Phys., 16, 10637-10650, 2016.
  22. Xue, L.; Gu, R.; Wang, T.; Wang, X.; Saunders, S.; Blake, D.; Louie, P. K. K.; Luk, C. W. Y.; Simpson, I.; Xu, Z.; Wang, Z.; Gao, Y.; Lee, S.; Mellouki, A.; Wang, W., Oxidative capacity and radical chemistry in the polluted atmosphere of Hong Kong and Pearl River Delta region: analysis of a severe photochemical smog episode. Atmos. Chem. Phys. 16, 9891-9903, 2016.
  23. Wang, T.; Tham, Y. J.; Xue, L.; Li, Q.; Zha, Q.; Wang, Z.; Poon, S. C. N.; Dubé, W. P.; Blake, D. R.; Louie, P. K. K.; Luk, C. W. Y.; Tsui, W.; Brown, S. S., Observations of nitryl chloride and modeling its source and effect on ozone in the planetary boundary layer of southern China. J Geophys Res Atmos, doi: 10.1002/2015JD024556, 2016.
  24. Brown, S. S.; Dubé, W. P.; Tham, Y. J.; Zha, Q.; Xue, L.; Poon, S.; Wang, Z.; Blake, D. R.; Tsui, W.; Parrish, D. D.; Wang, T., Nighttime Chemistry at a High Altitude Site Above Hong Kong. J Geophys Res Atmos, doi: 10.1002/2015JD024566, 2016.
  25. Zhou, S., Wang, T., Wang, Z., Li, W., Xu, Z., Wang, X., Yuan, C., Poon, C.N., Louie, P.K.K., Luk, C.W.Y., Wang, W.. Photochemical evolution of organic aerosols observed in urban plumes from Hong Kong and the Pearl River Delta of China. Atmos. Environ., 88, 219-229, 2014.
  26. Guo, J., Tilgner, A., Yeung, C.P., Wang, Z., Louie, P., Luk, C.W.Y., Xu, Z., Yuan, C., Gao, Y., Poon, S., Herrmann, H., Lee, S.C., Lam, K.S., Wang, T.. Atmospheric peroxides in a polluted subtropical environment: Seasonal variation, sources and sinks, and importance of heterogeneous processes. Environ Sci Technol, 48(3), 1443-1450, 2014.
  27. Wang, Z., Wang, T., Guo, J., Gao, R., Xue, L., Zhang, J., Zhou Y., Zhou, X., Zhang, Q., Wang, W.. Formation of secondary organic carbon and cloud impact on carbonaceous aerosols at Mount Tai, North China. Atmos. Environ., 46, 516-527, 2012.
  28. Zhou S. Z., Wang, Z., Gao R., Xue L.K., Yuan C., Wang T., Gao X.M., Wang X.F., Nie W., Xu Z., Zhang Q.Z., Wang W.X. Formation of secondary organic carbon and long-range transport of carbonaceous aerosols at Mount Heng in South China. Atmos. Environ., 63, 203-212, 2012.
  29. Yang L.X., Zhou X.H., Wang, Z., Zhou Y., Cheng S.H., Xu P.J., Gao X.M., Nie W., Wang X.F., Wang W. X. Airborne fine particulate pollution in Jinan, China: Concentrations, chemical compositions and influence on visibility impairment. Atmos. Environ., 55, 506-514, 2012
  30. Guo, J., Wang, Y., Shen, X., Wang, Z., Lee, T., Wang, X., Li, P., Sun, M., Collett Jr, J.L., Wang, W., Wang, T. Characterization of cloud water chemistry at Mount Tai, China: Seasonal variation, anthropogenic impact, and cloud processing. Atmos. Environ., 60, 467-476, 2012.
  31. Zhou, Y., Xue, L., Wang, T., Gao, X., Wang, Z., Wang, X., Zhang, J., Zhang, Q., Wang, W.. Characterization of aerosol acidity at a high mountain site in central eastern China. Atmos. Environ., 51, 11-20, 2012.
  32. Wang, X., Wang, W., Yang, L., Gao, X., Nie, W., Yu, Y., Xu, P., Zhou, Y., Wang, Z.. The secondary formation of inorganic aerosols in the droplet mode through heterogeneous aqueous reactions under haze conditions. Atmos. Environ., 63, 68-76, 2012.
  33. Wang, Z., Wang, T., Gao, R., Xue, L., Guo, J., Zhou, Y., Nie, W., Wang, X., Xu, P., Gao, J., Zhou, X., Wang, W., Zhang, Q.. Source and variation of carbonaceous aerosols at Mount Tai, North China: Results from a semi-continuous instrument. Atmos. Environ., 45, 1655-1667, 2011.
  34. Cheng, S., Yang, L., Zhou, X., Wang, Z., Zhou, Y., Gao, X., Nie, W., Wang, X., Xu, P., Wang, W.. Evaluating PM2.5 ionic components and source apportionment in Jinan, China from 2004 to 2008 using trajectory statistical methods. Journal of Environmental Monitoring, 13, 1662-1671, 2011.
  35. Wang Z., King, S.M., Freney, E., Rosenoern, T., Smith, M.L., Chen, Q., Kuwata, M., Lewis, E.R., Poschl, U., Wang, W., Buseck, P.R., Martin, S.T.. The Dynamic Shape Factor of Sodium Chloride Nanoparticles as Regulated by Drying Rate. Aerosol Science and Technology, 44, 939-953, 2010.
  36. King S. M., Rosenoern T., Shilling J. E., Chen Q., Wang Z., Biskos G., McKinney K. A., Poeschl U., Martin S. T. Cloud droplet activation of mixed organic-sulfate particles produced by the photooxidation of isoprene. Atmos. Chem. Phys., 10 (8): 3953-3964., 2010.
  37. Zhou, Y., Wang, T., Gao, X.M., Xue, L.K., Wang, X.F., Wang, Z., Gao, J.A., Zhang, Q.Z., Wang, W.X.. Continuous observations of water-soluble ions in PM2.5 at Mount Tai (1534 ma.s.l.) in central-eastern China. Journal of Atmospheric Chemistry, 64, 107-127, 2009.
  38. Zhou X.H., Wang, Z., Hao M.T.. Study on atmospheric particle pollution of Jinan in the spring of 2005. Acta Scientiae Circumstantiae, 28, 755-763, 2008.
  39. Yang, L., Wang, D., Cheng, S., Wang, Z., Zhou, Y., Zhou, X, Wang, W.. Influence of meteorological conditions and particulate matter on visual range impairment in Jinan, China. Science of The Total Environment, 383, 164-173, 2007.

Book chapter

1. Wang, T., Liang, Y., Zha, Q., Zhang, L., Wang, Z., Wang, W., and Poon, S.: Photochemical Smog in Southern China: A Synthesis of Observations and Model Investigations of the Sources and Effects of Nitrous Acid, in: Air Pollution in Eastern Asia: An Integrated Perspective, edited by: Bouarar, I., Wang, X., and Brasseur, G. P., Springer International Publishing, Cham, 69-85, 2017.

2. Wang, T.*, Xue, L., Wang, Z., Zhou, X., Wang, X., Fu, X., Gao, J., Zhang, Y., Poon, C.: Heterogeneous chemistry of reactive nitrogen oxides and its impacts on atmospheric oxidative capacity and regional air pollution over North China, in: Key chemical processes of atmospheric compound pollution, edited by: Zhu, T., He, H., Cao, J., Zhang, C. Peking University Press, Beijing, 2021

Presentations and Invited Talks

  • Atmospheric reactive organic compounds and their impacts on photochemical air pollution, Seoul National University, Republic of Korea, Seminar at Seoul National University, June 2024, Seoul, Korea.
  • Important roles of oxygenated volatile organic compounds in photochemical pollution in Hong Kong, AOGS2024 21st Annual Meeting, June 2024, Pyeongchang, Korea.
  • Trend and evolution of surface ozone and ozone-precursor relationship in Hong Kong and China, The 7th International Workshop on Regional Air Quality Management in Rapidly Developing Economic Regions cum The 1st GBA Climate Forum, May 2024, Guangzhou.
  • Atmospheric reactive organic compounds and their impacts on photochemical air pollution, invited talk at International Space Institute Workshop, May 2024, Beijing.
  • Atmospheric Organic Compounds Measurement using online Chemical Ionization Mass Spectrometry, invited talk at The 8th World Chinese Mass Spectrometry Conference, May 2024, Xi’an.
  • Molecular characterization of oxygenated volatile organic compounds and the photochemical roles in Hong Kong, The 6th Symposium on Prevention and Control of Atmospheric Ozone Pollution, April 2024, Qingdao.
  • Abundant Oxygenated Volatile Organic Compounds and Their Contribution to Photochemical Pollution in Subtropical Hong Kong; & A new approach for assessing ozone formation regime and historical evolution of precursor control; presentations at AGU2023 Fall meeting, December 2023, San Francisco, USA.
  • Characteristics of oxygenated volatile organic compounds and the impacts in coastal Hong Kong, The International Expert Workshop on Volatile Organic Compounds 2023, Nov-Dec 2023, Hong Kong.
  • Characteristics of oxygenated volatile organic compounds and the impacts in coastal Hong Kong, Oral presentation at the 10th Conference on Air Benefit and Cost and Attainment Assessment & Symposium on Atmospheric Haze Chemistry, September 2023, Qingdao, China
  • The gaseous nitro-phenolic compounds in the background air of South China: source, formation and impacts on air quality, Oral Presentation at the 20th Annual Meeting of AOGS2023, August 2023, Singapore
  • Molecular Characteristics, Formation and Impacts of Oxygenated Organic Vapors at a coastal site in Hong Kong, Oral presentation at Goldschmidt2023, July 2023, Lyon, France.
  • Atmospheric Organic Compounds Measurement using online Chemical Ionization MS, Invited lecture on HKSMS Symposium 2023 and HKSMS 25th Annual General Meeting, June 2023, Hong Kong.
  • Molecular characterization of oxygenated organic molecules and their dominating roles in particle growth in Hong Kong, 12th TOF-CIMS Users Meeting, May 2023, Atlanta, USA.
  • Volatile and low-volatile oxygenated organic compounds in coastal Hong Kong, The 1st  Young Scientist Workshop on Photochemical Air Pollution in Hong Kong and Greater Bay Area, May 2023, Hong Kong.
  • Characteristics, formation mechanism and impacts of highly oxygenated organic matters in the coastal atmosphere of Hong Kong, Frontiers of Environmental Science & Engineering Youth Forum, May 2023, Shanghai, China.
  • A novel approach to diagnose ozone formation regime and historical evolution of precursor control, Oral presentation at the 5th Atmospheric Ozone Pollution Prevention Symposium, 2023, Wuhan, China.
  • Real-time measurement of VOCs and OVOCs at the molecular level using GC-VOCUS-PTR and CI-ToF-MS in Hong Kong, invited presentation at the Second Steering Committee Meeting of Characterization of Photochemical Ozone Formation, Regional & Superregional transportation in the Greater Bay Area, 2023, Hong Kong.
  • Reactive nitrogen chemistry and photochemical air pollution in Hong Kong, invited seminar at Institut de Biologie Structurale, 2023, Grenoble, France.
  • Formation and impacts of oxygenated organic vapors observed at a coastal background site in South China, Oral presentation at AGU Fall Meeting 2022, 2022, Chicago, USA.
  • The characteristics of oxygenated organic molecules and their dominant roles in particle growth in Hong Kong / Characteristics and sources of volatile organic compounds (VOCs) in subtropical Hong Kong. Oral presentations at the 28th China Atmospheric Environmental Science and Technology Conference, 2022, Beijing, China
  • The effects of urban NO2 emission on oxidation chemistry of biogenic isoprene and impacts on air quality, Invited talk at The 2nd Jiangsu-Hong Kong-Macau Conference on Biomass Energy and Materials, 2022, Nanjing, China
  • Photochemical air pollution in Hong Kong – current status and research progress, Invited seminar at Seminar series on collaborative atmospheric detection technology and application, 2022, Qingdao, China.
  • Formation and impacts of oxygenated organic vapors observed at a coastal background site in Hong Kong, The 27th China Atmospheric Environmental Science and Technology Conference, 2021, Beijing, China.
  • The formation and impacts of highly oxygenated organic nitrogen compounds in polluted atmosphere, Invited talk at Annual Scientific Workshop of GD-HK-Macau Joint Laboratory of Collaborative Innovation for Environmental Quality, 2021, Guangzhou, China
  • Heterogeneous chemistry of N2O5/ClNO2 in the polluted atmosphere and impacts on air quality, Invited Seminar at Nanjing University of Information Science & Technology, 2021, Nanjing, China
  • Heterogeneous chemistry of N2O5/ClNO2 in the polluted atmosphere and impacts on air quality, Invited Seminar at Shanghai CEAS, 2021, Shanghai, China
  • Direct measurement of N2O5 uptake coefficient on ambient aerosols in the polluted atmosphere and influencing factors, The 25th China Atmospheric Environmental Science and Technology Conference, 2019, Chengdu, China.
  • The studies of N2O5 Hetero. Chem. in China & a Collaborative Program on Photochemical Air Pollution in Highly Urbanized Subtropical Region, National Center for Atmospheric Research (NCAR) ACOML Seminar, 2019, Boulder, USA
  • Cloud chemistry and interaction with aerosols at a mountain site in Hong Kong, 2019 Asian Aerosol Conference, 2019, Hong Kong, China
  • First field measurement of highly oxidized compounds by Tof-CIMS at Hong Kong, 2019 CIMS User Meeting, 2019, Boulder, USA.
  • Heterogeneous process of reactive nitrogen oxides and its impact on air quality, The 24th China Atmospheric Environmental Science and Technology Conference, 2018, Qingdao, China.
  • Direct measurement of heterogeneous reactive uptake of N2O5 on ambient aerosols in the polluted environment in China, 2018 joint 14th iCACGP Quadrennial Symposium and 15th IGAC Science Conference, 2018, Takamatsu, Japan.
  • Investigation of heterogeneous N2O5 uptake and ClNO2 yield at a rural and a mountain-top site in northern China, 2017 AGU Fall Meeting, 2017, New Orleans, USA.
  • Observation of significant heterogeneous production of ClNO2 in northern China. The 5th International Symposium on Regional Air Quality Management in Rapidly Developing Economic Regions, 2017, Guangzhou.
  • Sources and Heterogeneous Production of Nitrous Acid and Impacts on Air Quality: Overview of Results from Integrated Field, Lab and Modeling Studies in Hong Kong. IGAC 2016 Science Conference, 2016, Colorado, USA.
  • An overview of an integrated study of photochemical air pollution in Hong Kong. HKSAR Stakeholders’ Engagement Seminar, 2014, Hong Kong.
  • Particle formation and growth at a suburban site in Hong Kong. The 12th International Conference on Atmospheric Sciences and Applications to Air Quality (ASAAQ), 2012, Seoul, Korea.
  • Characteristics of aerosol composition at a suburban site in Hong Kong. The 1st GIGCAS-HKPOLYU Joint Workshop on Environmental Science and Engineering, 2012, Guangzhou, China.
  • The impact of cloud process on carbonaceous aerosols and SOA formation. The 18th Conference on Atmospheric Environmental Sciences and Technology, 2011, Hangzhou, China.
  • Study of dynamic shape factor of NaCl particles by using DMA-CCN system. The 17th Conference on Atmospheric Environmental Sciences and Technology, 2010, Shanghai, China.
  • Characteristics of non-volatile and semi-volatile organic aerosol at the summit of Mt. Tai in North China. The 11th International Conference on Atmospheric Sciences and Applications to Air Quality (ASAAQ), 2009, Jinan, China.