Faculty
Basic Introduction:
Dr. Chen Wang received her PhD in Environment Chemistry at University of Toronto. Dr. Wang joined School of Environmental Science and Engineering at SUSTech in June 2021, as an Associate Professor now. Dr. Wang’s research interests include indoor air quality, atmospheric multiphase reactive processes, formation of secondary aerosols and gaseous products, and the association between indoor and outdoor air pollution, etc. With both laboratory studies and field measurements, her research focuses on the behavior of pollutants, multiphase partitioning, chemical transformation, and the differences between indoor and outdoor atmospheric chemistry. She has published over 50 papers in top journals in environmental and atmospheric science, including Science Advances, PNAS, Environmental Science & Technology, etc., and co-authored a book chapter. She was selected as MIT Civil and Environmental Engineering Rising Star in 2019 and as Atmospheric Chemistry Colloquium for Emerging Senior Scientists (ACCESS XIV) in 2017.
Professional Experience:
2022 - present Associate Professor, Southern University of Science and Technology
2021 - 2022 Assistant Professor, Southern University of Science and Technology
2017 - 2021 Postdoctoral Fellow, University of Toronto
Education:
2012-2016 PhD in Environmental Chemistry, University of Toronto
2009-2012 MSc in Environmental Science, Peking University
2005-2009 BSc in Environmental Science, Nankai University
Synergistic Activities:
Dr. Wang serves as a reviewer for many peer-reviewed journals in the field of environmental and atmospheric science, including Science Advances, Environmental Science & Technology, Atmospheric Chemistry & Physics, Atmospheric Environment, Atmospheric Measurement Techniques, Environmental Science: Atmospheres, Environmental Science: Processes & Impacts, The Journal of Physical Chemistry, etc.
Awards and Honors:
1. 2022 Environmental Science: Atmospheres Outstanding reviewer
2. 2021 Environmental Science: Processes & Impacts Outstanding reviewer
3. 2019 MIT Civil and Environmental Engineering (CEE) Rising Star
4. 2017 Atmospheric Chemistry Colloquium for Emerging Senior Scientists (ACCESS XIV)
5. 2015 Ontario Graduate Scholarship (Canada)
6. 2015 Jeanne F. Goulding Fellowship (University of Toronto)
Research Interests:
1. Atmospheric multiphase chemistry
2. Indoor air chemistry
3. Indoor and outdoor atmospheric pollution
Selected funded projects:
1. Key Projects of the National Natural Science Foundation of China (Participants, 2024-2028, 42330709)
2. The National Natural Science Foundation of China General Project (Project Leader, 2023-2026, 42277083)
3. Shenzhen Science and Technology Innovation Commission Basic Research Special Project (Natural Science Foundation) General Project (Project Leader, 2022-2025, JCYJ20220530113603008)
4. Shenzhen Science and Technology Innovation Commission Shenzhen Key Laboratory Project (Participants, 2023-2025, ZDSYS20220606100604008)
5. Guangdong Province Field Scientific Observation and Research Station Project (Participants, 2021-2024, 2021B1212050024)
6. Chemistry of The Indoor Environment (CIE) Program, Alfred P. Sloan Foundation (Participants, 2017-2022)
7. Natural Sciences and Engineering Research Council of Canada, Discovery Grants (NSERC) (Participants, 2017-2022)
Published Works:
Peer-reviewed book chapter:
Zhao, R.; Lee, A. K.Y.; Wang, C.; Wania, F.; Wong, J.P.S.; Zhou, S.; Abbatt, J.P.D., The role of water in organic aerosol multiphase chemistry: focus on partitioning and reactivity. Book chapter in Advances in Atmosphere Chemistry, Volume 1, pp. 95-184. Baker, J. R. and Steiner, A.L., eds.; World Scientific Publishing Company, 2017.
Peer-reviewed journal articles (corresponding author*):
1. Liu, W.; Zhou, L.; Yuan, W.T.; Ruan, L.; Wang, X.K.; Guo, Y.C.; Xie, Z.Q.; Liu, Q.F.; Wang, C.*; Tracking indoor volatile organic compounds with online mass spectrometry, Trends in Analytical Chemistry, 171 (2024) 117514
2. Chen, Y.; Yao, B.; Wu, J.; Yang, H.; Ding, A.; Liu, S.; Li, X.; O'Doherty , S.; Li, J.; Li, Y.; Yu, H.; Wang, W.; Chen, L.; Yang, X.; Fu, T.-M.; Shen, H.; Ye, J.; Wang, C.; Zhu, L. Observations and emission constraints of trichlorofluoromethane (CFC-11) in southeastern China: first-year results from a new AGAGE station, Environmental Research Letters, 2024
3. Shi, S.; Zhai, J.; Yang, X.; Ruan, Y.; Huang, Y.; Chen, X.; Zhang, A.; Ye, J.; Zheng, G.; Cai, B.; Zeng, Y.; Wang, Y.; Xing, C.; Zhang, Y.; Fu, T.-M.; Zhu, L.; Shen, H.; Wang, C. Determining chemical composition of atmospheric single particles by a standard-free mass calibration algorithm, Atmospheric Chemistry and Physics, 2024
4. Zheng, L.M.; Adalibieke, W.; Zhou, F.; He, P.; Chen, Y.L.; Guo, P.; He, J.L.; Zhang, Y.Z.; Xu, P.; Wang, C.; Ye, J.H.; Zhu, L.; Shen, G.F.; Fu, T.M.; Yang, X.; Zhao, S.L.; Hakami, A.; Russell, A.; Tao, S.; Meng, J.; Shen, H.Z. Health burden from food systems is highly unequal across income groups, Nature Food, 5, 251–261 (2024).
5. Wu, W.; Fu, T.-M.; Arnold, S. R.; Spracklen, D. V.;Zhang, A.; Tao, W.; Wang, X.; Hou, Y.; Mo, J.; Chen, J.; Li, Y.; Feng, X.; Lin, H.; Huang, Z.; Zheng, J.; Shen, H.; Zhu, L.; Wang, C.; Ye, J.; Yang, X.: Temperature-Dependent Evaporative Anthropogenic VOC Emissions Significantly Exacerbate Regional Ozone Pollution, Environ. Sci. Technol., 2024, 58, 12, 5430-5441.
6. Mai, Z.L.; Shen, H.Z.; Zhang, A.X.; Sun, H.Z.; Zheng, L.M.; Guo, J.F.; Liu, C.F.; Chen, Y.L.; Wang, C.; Ye, J.H.; Zhu, L.; Fu, T.M.; Yang, X.; Tao, S. Convolutional Neural Networks Facilitate Process Understanding of Megacity Ozone Temporal Variability, Environ. Sci. Technol., 2024
7. Zeng, Y.L.; Zhang, A.T; Yang, X.; Xing, C.B.; Zhai, J.H.; Wang, Y.X.; Cai, B.H.; Shi, S.; Zhang, Y.J.; Shen, Z.X.; Fu, T.M.; Zhu, L.; Shen, H.Z.; Ye, J.H.; Wang, C. Internal exposure potential of water-soluble organic molecules in urban PM2.5 evaluated by non-covalent adductome of human serum albumin, Environment International, 184 (2024) 108492
8. Wang, Y.X.; Xing, C.B.; Cai, B.H.; Qiu, W.H.; Zhai, J.H.; Zeng, Y.L.; Zhang, A.T; Shi, S.; Zhang,Y.J.; Yang, X.; Fu, T.M.; Shen, H.Z.; Wang, C.; Zhu, L.; Ye, J.H. Impact of Antioxidants on PM2.5 Oxidative Potential, Radical Level, and Cytotoxicity. Science of The Total Environment, 912 (2024) 169555
9. Zuo, X.X.; Sun, W.F.; Smedt, I.; Li, X.; Liu, S.; Pu, D.; Sun, S.; Li, J.; Chen, Y.Y.; Fu, W.T.; Zhang, P.; Li, Y.L.; Yang, X.; Fu, T.M.; Shen, H.Z.; Ye, J.H.; Wang, C.; Zhu, L. Observing Downwind Structures of Urban HCHO Plumes From Space: Implications to Non-Methane Volatile Organic Compound Emissions. Geophysical Research Letters, 50, e2023GL106062
10. Zhang, A.T.; Zeng, Y.L.; Yang, X.; Zhai, J.H.; Wang, Y.; Xing, C.B.; Cai, B.H.; Shi, S.; Zhang,Y.J.; Shen, Z.X.; Fu, T.M.; Zhu, L.; Shen, H.Z.; Ye, J.H.; Wang, C. Organic matrix effect on the molecular light absorption of brown carbon. Geophysical Research Letters, 50, e2023GL106541.
11. He, J.L.; Shen, H.Z.; Lei, T.Y.; Chen, Y.L.; Meng, J.; Sun, H.T.; Li, M.; Wang, C.; Ye, J.H.; Zhu, L.; Zhou, Z.H.; Shen, G.F.; Guan, D.B.; Fu, T.M.; Yang, X.; Tao, S. Investigation of Plant-Level Volatile Organic Compound Emissions from Chemical Industry Highlights the Importance of Differentiated Control in China, Environ. Sci. Technol., 2023, 57, 50, 21295-21305.
12. Zhang, J.J.; Shen, H.Z.; Chen, Y.L.; Meng, J.; Li, J.; He, J.L.; Guo, P.; Dai, R.; Zhang, Y.Z.; Xu, R.B.; Wang, J.H.; Zheng, S.X.; Lei, T.Y.; Shen, G.F.; Wang, C.; Ye, J.H.; Zhu, L.; Sun, H.T.; Fu, T.M.; Yang, X.; Guan, D.B.;Tao, S. Iron and Steel Industry Emissions: A Global Analysis of Trends and Drivers, Environ. Sci. Technol., 2023, 57 (43), 16477-16488.
13. Wang, C.*; Liggio, J.; Wentzell, J.J.B.; Jorga, S.; Folkerson, A.; Abbatt, J.P.D.; Chloramines as an important source of chlorine atom in the urban atmosphere, PNAS, 2023, 120 (30) e2220889120
14. Zhai, J.H.; Yu, G.Y.; Zhang, J.Y.; Shi, S.; Yuan, Y.P.; Jiang, S.L.; Xing, C.B.; Cai, B.H.; Zeng, Y.L.; Wang, Y.X.; Zhang, A.T.; Zhang, Y.J.; Fu, T.-M.; Zhu, L.; Shen, H.Z.; Ye, J.H.; Wang, C.; Tao, S.; Zhang, Y.; Yang, X.; Impact of Ship Emissions on Air Quality in the Greater Bay Area in China under the Latest Global Marine Fuel Regulation. Environ. Sci. Technol., 2023. 57, , 33, 12341-12350
15. Reidy, E.; Rosales, C.; Bottorff, B.; Cordoso-Salda?a, F.; Arata, C.; Zhou, S.; Wang, C.; Abeleira, A.; Hildebrandt Ruiz, L.; Goldstein A.H.; Novoselac, A.; Kahan, T.F.; Abbatt, J.P.D.; Vance, M.E.; Farmer, D.K.; Stevens, P. Measurements of hydroxyl radical concentrations during indoor cooking events: Evidence of an unmeasured photolytic source of radicals, Environ. Sci. Technol., 2023, 57, 2, 896-908.
16. Zhai, J.H.; Yang, X.; Li, L.; Ye, X.N.; Chen, J.M.; Fu, T.-M.; Zhu, L.; Shen, H.Z.; Ye, J.H.; Wang, C.; Tao, S.; Direct observation of the transitional stage of mixing-state-related absorption enhancement for atmospheric black carbon, Geophys. Res. Lett., 2023.
17. Stubbs, A.D.; Lao, M.; Wang, C.; Abbatt, J.P.D.; VandenBoer, T.C.; Kahan, T.F.; Near-Source Hypochlorous Acid Emissions from Indoor Bleach Cleaning, Environ. Sci.: Processes Impacts, 2023, 25, 56-65.
18. Bottorff, B.; Wang, C.; Reidy, E.; Rosales, C.; Farmer, D.K.; Vance, M.E.; Abbatt, J.P.D.; Stevens, P. Comparison of simultaneous measurements of indoor nitrous acid: Implications for the spatial distribution of indoor HONO emissions, Environ. Sci. Technol., 2022. 56, 19, 13573-13583.
19. Wang, C.*; Mattila, J.M.; Farmer, D.K.; Caleb, A.; Goldstein, A.; Abbatt, J.P.D. Behavior of Isocyanic Acid and Other Nitrogen-Containing Volatile Organic Compounds in The Indoor Environment, Environ. Sci. Technol., 2022, 56, 12, 7598-7607.
20. Hodshire, A.; Carter, E.; Mattila, J.; Ilacqua, V.; Zambrana, J.; Abbatt, J.P.D.; Abeleira, A.; Arata, C.; DeCarlo, P.; Goldstein, A.H.; Hildebrandt, L.-R.; Vance, M.; Wang, C.; Farmer, D.; Detailed investigation of the contribution of gas-phase air contaminants to exposure risk during indoor activities, Environ. Sci. Technol., 2022, 56, 17, 12148-12157.
21. Wu, S.; Hayati, S.K.; Kim, E.; Harynuk, J.J.; Wang, C.; Zhao, R.; Henry’s Law Constants and Indoor Partitioning of Microbial Volatile Organic Compounds, Environ. Sci. Technol., 2022, 56, 11, 7143-7152.
22. Long, X.; Fu, T-M.; Yang, X.; Tang, Y.Y.; Zheng, Y.; Zhu, L.; Shen, H.Z.; Ye, J.H.; Wang, C.; Wang, T.; Li, B.J.; Efficient atmospheric transport of microplastics over Asia and adjacent oceans, Environ. Sci. Technol., 2022, 56, 10, 6243-6252.
23. Mattila, J.M.; Arata, C.; Abeleira, A.; Zhou, Y.; Wang, C.; Katz, E.F.; Goldstein, A.H.; Abbatt, J.P.D.; Decarlo, P. F.; Vance, M.; Farmer, D. K. Contrasting chemical complexity of indoor and outdoor reactive organic carbon, Environ. Sci. Technol., 2022, 56, 1, 109-118
24. Schwartz-Narbonne, H.; Abbatt, J.P.D.; DeCarlo, P.; Farmer, D.K.; Mattila, J.M.; Wang, C.; Donaldson, D. J.; Siegel, J.; Modelling the Removal of Water-Soluble Trace Gases from Indoor Air via Air Conditioner Condensate, Environ. Sci. Technol., 2021, 55, 16, 10987-10993
25. Lakey, P.S.J.; Won, Y.; Shaw, D; ?sterstr?m, F.F.; Mattila, J.M.; Reidy, E.; Bottorff, B.; Rosales, C.; Wang, C.; Ampollini, L.; Zhou, S.; Novoselac, A.; Kahan, T.; DeCarlo, P.F.; Abbatt, J.P.D.; Stevens, P.; Farmer, D.K.; Carlslaw, N.; Rim, D.; Shiraiwa1, M.; Spatial and Temporal Scales of Variability for Indoor Air Constituents, Communications Chemistry, 2021, 4, 110
26. Wang, C.*; Bottorff, B.; Reidy, E.; Rosales, C. M.F.; Collins, D.B.; Novoselac, A.; Farmer, D.K.; Vance, M.E.; Stevens, P.; Abbatt, J.P.D.; Cooking, bleach cleaning and air conditioning strongly impact levels of HONO in a house, Environ. Sci. Technol. 2020, 54, 21, 13488-13497.
27. Wang, C.; Collins, D.B.; Arata, C.; Goldstein, A.H.; Mattila, J.M.; Farmer, K.D.; Ampollini, L.; DeCarlo, P.F.; Novoselac, A.; Vance, M.E.; Nazaroff, W.W.; Abbatt, J.P.D., Surface reservoirs dominate dynamic gas-surface partitioning of many indoor air constituents, Science Advances, 2020, 6, eaay8973. (Journal cover).
28. Abbatt, J.P.D.; Wang, C., The atmospheric chemistry of indoor environments. Environ. Sci.: Processes Impacts, 2020, 22, 25-48. (Best Paper of 2020 from RSC’s Environmental Science journals).
29. Mattila, J.J.; Lakey, P.S.J.; Shiraiwa, M.; Wang, C.; Abbatt, J.P.D.; Arata, C.; Goldstein, A.H; Ampollini, L; Katz, E.F.; DeCarlo, E.F.; Zhou, S.; Kahan, T.F.; Cardoso-Salda?a, F.J.; Hildebrandt Ruiz L.; Abeleira, A.; Boedicker, E.; Vance M. E.; Farmer D.K.; Multiphase chemistry controls inorganic chlorinated and nitrogenated compounds in indoor air during bleach cleaning, Environ. Sci. Technol., 2020, 54, 3, 1730-1739.
30. Mattila, J.J.; Arata, C.; Wang, C.; Katz, E.F.; Abeleira, A.; Zhou, Y.; Zhou, S.; Goldstein, A.H.; Abbatt, J.P.D.; DeCarlo, P.F.; Farmer, D.K., Dark chemistry during bleach cleaning enhances oxidation of organics and secondary organic aerosol production indoors. Environ. Sci. Technol. Lett., 2020, 7, 11, 795-801.
31. Wang, C.*; Collins, D.B.; Abbatt, J.P.D., Indoor illumination of terpenes and bleach emissions leads to particle formation and growth, Environ. Sci. Technol., 2019, 53, 11792-11800. (ACS news release selected paper)
32. Schwartz-Narbonne, H.; Wang, C.; Zhou, S.; Abbatt, J.P.D.; Faust, J., Heterogeneous chlorination of squalene and oleic acid. Environ. Sci. Technol., 2019, 53, 1217-1224. (ACS Editors’Choice and Journal Cover)
33. Hems, R.F.; Wang, C.; Collins, D.B.; Zhou, S.; Borduas-Dedekind, N.; Siegel, J.; Abbatt, J.P.D., Sources of isocyanic acid (HNCO) indoors: a focus on cigarette smoke, Environ. Sci.: Processes Impacts, 2019, 21, 1334-1341.
34. Farmer, K.D.; Vance, M.E.; Abbatt, J.P.D.; Abeleira, A.; Alves, M.; Arata, C.; Boedicker, E.; Bourne, S.; Cardoso-Salda?a, F.; Corsi, R.; DeCarlo, P.F.; Goldstein, A.H.; Grassian, V.; Hildebrandt Ruiz, L.; Jimenez, J.; Kahan, T.; Katz, E.F.; Mattila, J.M.; Nazaroff, W.W.; Novoselac, A.; O'Brien, R.; Or, V.; Patel, S.; Sankhyan, S.; Stevens, P.; Tian, Y.; Wade, M.; Wang, C.; Zhou, S.; Zhou, Y., Overview of HOMEChem: House Observations of Microbial and Environmental Chemistry. Environ. Sci.: Processes Impacts, 2019, 21, 1280-1300. (RSC ESPI Best Paper of 2019)
35. Wang, C.; Collins, D.B.; Hems, R.F.; Borduas, N.; Anti?olo, M.; Abbatt, J.P.D., Exploring conditions for ultrafine particle formation from oxidation of cigarette smoke in indoor environments. Environ. Sci. Technol., 2018, 52, 4623-4631.
36. Collins, D.B.; Wang, C.; Abbatt, J.P.D., Selective uptake of third hand tobacco smoke components to inorganic and organic aerosol particles. Environ. Sci. Technol., 2018, 52, 13195-13201.
37. Collins, D.B.; Hems, R.F.; Zhou, S.; Wang, C.; Grignon, E.; Alavy, M.; Siegel, J.; Abbatt, J.P.D., Evidence for gas-surface equilibrium control of indoor nitrous acid. Environ. Sci. Technol., 2018, 52, 12419-12427.
38. Wang, C.; Wania, F.; Goss K.-U., Is secondary organic aerosol yield governed by kinetic factors rather than equilibrium partitioning? Environ. Sci.: Processes Impacts, 2018, 20, 245-252. (RSC recent HOT articles 2018)
39. Huang, Y.; Barraza, K.; Kenseth, C.; Zhao, R.; Wang, C.; Beauchamp, J.; Seinfeld, J., Probing the OH oxidation of pinonic acid at the air-water interface using field-induced droplet ionization mass spectrometry (FIDI-MS). J. Phys. Chem. A. 2018, 122, 6445-6456.
40. Wang, C.; Yuan, T.G.; Wood, S.; Goss K.-U.; Ying, Q.; Li, J.; Wania, F., Uncertain Henry’s law constants compromise equilibrium partitioning calculations of atmospheric oxidation products. Atmos. Chem. Phys. 17, 7529-7540, 2017.
41. Awonaike, B.; Wang, C.; Goss K.-U.; Wania, F., Quantifying the equilibrium partitioning of substituted polycyclic aromatic hydrocarbons in aerosols and clouds using COSMOtherm. Environ. Sci.: Processes Impacts, 2017, 19, 288-299.
42. Wang, C.; Lei, Y.D.; Wania, F.; The effect of sodium sulfate, ammonium chloride, ammonium nitrate and salt mixtures on aqueous phase partitioning of organic compounds. Environ. Sci. Technol., 2016, 50 (23): 12742-12749.
43. Borduas, N.; Murphy, J.; Wang, C.; da Silva, G.; Abbatt, J., Gas phase oxidation of nicotine: loss kinetics and formation of HNCO. Environ. Sci. Technol. Lett., 2016, 3 (9): 327-331.
44. Aljawhary, D.; Zhao, R.; Lee, A.; Wang, C.; Abbatt, J.P.D., Kinetics, mechanism and secondary organic aerosol yield of aqueous phase photo-oxidation of α-pinene oxidation products. J. Phys. Chem. A. 2016, 120 (9): 1395-1407.
45. Li, W.; Shen, G.; Yuan, C.; Wang, C.; Shen, H.; Jiang, H.; Zhang, Y.; Chen, Y.; Su, S.; Lin, N.; Tao, S., The gas/particle partitioning of nitro- and oxy-polycyclic aromatic hydrocarbons in the atmosphere of northern China. Atmos. Res. 2016, 172, 66-73.
46. Li, W.; Wang, C.; Shen, H.; Su, S.; Shen, G.; Huang, Y.; Zhang, Y.; Chen, Y.; Chen, H.; Lin, N.; Zhuo, S.; Zhong, Q.; Wang, X.; Liu, J.; Li, B.; Liu, W.; Tao, S., Concentrations and origins of nitro-polycyclic aromatic hydrocarbons and oxy-polycyclic aromatic hydrocarbons in ambient air in urban and rural areas in northern China. Environ. Pollut. 2015, 197, (0), 156-164.
47. Wang, C.; Goss, K.-U.; Lei, Y.D.; Abbatt, J.P.D.; Wania, F., Calculating equilibrium phase distribution during the formation of secondary organic aerosol using COSMOtherm. Environ. Sci. Technol. 2015. 49: 8585-8594.
48. Wania, F.; Lei, Y. D.; Wang, C.; Abbatt, J. P. D.; Goss, K.-U., Using the chemical equilibrium partitioning space to explore factors influencing the phase distribution of compounds involved in secondary organic aerosol formation. Atmos. Chem. Phys. 2015, 15: 3395-3412.
49. Wang, C.; Lei, Y.D.; Endo, S.; Wania, F., Measuring and modeling the salting out effect in ammonium sulfate solutions. Environ. Sci. Technol. 2014, 48: 13238-13245.
50. Wania, F.; Lei, Y. D.; Wang, C.; Abbatt, J. P. D.; Goss, K.-U., Novel methods for predicting gas-particle partitioning during the formation of secondary organic aerosol. Atmos. Chem. Phys. 2014, 14: 13189-13204.
51. Li, W.; Wang, C.; Wang, H.; Chen, J.; Shen, H.; Shen, G.; Huang, Y.; Wang, R.; Wang, B.; Zhang, Y.; Chen, H.; Chen, Y.; Su, S.; Lin, N.; Tang, J.; Li, Q.; Wang, X.; Liu, J.; Tao, S., Atmospheric polycyclic aromatic hydrocarbons in rural and urban areas of northern China. Environ. Pollut. 2014, 192, (0), 83-90.
52. Li, W.; Wang, C.; Wang, H.; Chen, J.; Yuan, C.; Li, T.; Wang, W.; Shen, H.; Huang, Y.; Wang, R.; Wang, B.; Zhang, Y.; Chen, H.; Chen, Y.; Tang, J.; Wang, X.; Liu, J.; Coveney, R. M., Jr.; Tao, S., Distribution of atmospheric particulate matter (PM) in rural field, rural village and urban areas of northern China. Environ. Pollut. 2014, 185, 134-140.
53. Zhang, Y.; Ding, J.; Shen, G.; Zhong, J.; Wang, C.; Wei, S.; Chen, C.; Chen, Y.; Lu, Y.; Shen, H.; Li, W.; Huang, Y.; Chen, H.; Su, S.; Lin, N.; Wang, X.; Liu, W.; Tao, S., Dietary and inhalation exposure to polycyclic aromatic hydrocarbons and urinary excretion of monohydroxy metabolites - A controlled case study in Beijing, China. Environ. Pollut. 2014, 184, 515-22.
54. Wang, C.; Li, W.; Chen, J. W.; Wang, H. Q.; Li, T. C.; Shen, G. F.; Shen, H. Z.; Huang, Y.; Wang, R.; Wang, B.; Zhang, Y. Y.; Tang, J. H.; Liu, W. X.; Wang, X. L.; Tao, S., Summer atmospheric polybrominated diphenyl ethers in urban and rural areas of northern China. Environ. Pollut. 2012, 171, 234-240.
55. Ding, J. N.; Zhong, J. J.; Yang, Y. F.; Li, B. G.; Shen, G. F.; Su, Y. H.; Wang, C.; Li, W.; Shen, H. Z.; Wang, B.; Wang, R.; Huang, Y.; Zhang, Y. Y.; Cao, H. Y.; Zhu, Y.; Simonich, S. L. M.; Tao, S., Occurrence and exposure to polycyclic aromatic hydrocarbons and their derivatives in a rural Chinese home through biomass fuelled cooking. Environ. Pollut. 2012, 169, 160-166.
56. Zhong, J. J.; Ding, J. N.; Su, Y. H.; Shen, G. F.; Yang, Y. F.; Wang, C.; Simonich, S. L. M.; Cao, H. Y.; Zhu, Y.; Tao, S., Carbonaceous particulate matter air pollution and human exposure from indoor biomass burning practices. Environ. Eng. Sci. 2012, 29, (11), 1038-1045.
57. Wang, R.; Tao, S.; Wang, W. T.; Liu, J. F.; Shen, H. Z.; Shen, G. F.; Wang, B.; Liu, X. P.; Li, W.; Huang, Y.; Zhang, Y. Y.; Lu, Y.; Chen, H.; Chen, Y. C.; Wang, C.; Zhu, D.; Wang, X. L.; Li, B. G.; Liu, W. X.; Ma, J. M., Black carbon emissions in China from 1949 to 2050. Environ. Sci. Technol. 2012, 46, (14)