Publications

2023

  • Tian, Y., Wang, X., Zhao, P., Shi, Z., Harrison, R.M., PM2.5 Source Apportionment using Organic Marker-based CMB Modeling: Influence of Inorganic Markers and Sensitivity to Source Profiles. Atmospheric Environment, 294, 119477.
  • Ziegler, C., Aleksandra, K., Koumouli, A., Hamilton, L., Shi, Z., MacKenzie, A.R., Jonston, I., 2023. Quantification and uncertainty of root growth stimulation by elevated CO2 in mature temperate deciduous forest. Science of The Total Environment, 854, 158661.
  • Lu, K., Wang, H., Wang, H., Lu, X., Zhang, L., Tham, Y.J., Shi, Z., Aikin, K., Fan, S., Brown, S., and Zhang, Y., 2023. Increased nighttime oxidation over China despite widespread decrease across the globe. Nature Geoscience, in press, doi: 10.1038/s41561-022-01122-x  
  • Kraisitnitikul P., Thepnuan D., Chansuebsri S., Yabueng N., Charoenporn T., Wiriya W., Saksakulkrai S., Shi Z., Chantara S., 2024. Patterns and sources of metal and carbon compositions: Contrasting composition and sources of PM2.5 from Northern Thailand in La Niña (2017) and El Niño (2019) years. Journal of Environmental Sciences, 135, 585-599.
  • Saksakulkrai, S., Chantara, S., Shi, Z., 2023. Airborne particulate matter in Southeast Asia: a review on spatial-temporal variation, chemical composition and source apportionment. Environmental Chemistry, in press
  • Song, C., Liu, B., Cheng, K., Cole, M.A., Dai, Q., Elliott, R.J.R., Shi, Z., 2023. Attribution of Air Quality Benefits to Clean Winter Heating Polices in China: Combining Machine Learning with Causal Inference. Environmental Science & Technology, doi.org/10.1021/acs.est.2c06800

2022

  • Alwadei, M., Srivastava, D., Alams, S., Shi, Z., Bloss, W.J., 2021. Chemical characteristics and source apportionment of particulate matter (PM2.5) in Dammam, Saudi Arabia: Impact of dust storms. Atmospheric Environment: X., 14, 100164
  • Baldo, C., Ito, A., Krom, M. D., Li, W., Jones, T., Drake, N., Ignatyev, K., Davidson, N., and Shi, Z.*, 2022. Iron from coal combustion particles dissolves much faster than mineral dust under simulated atmospheric acid conditions, Atmospheric Chemistry Physics 22, 6045–6066.
  • Fu, Y., Peng, X., Sun, W., Hu, X., Wang, D., Yang, Y., Guo, Z., Wang, Y., Zhang, G., Zhu, J., Qu, J., Shi, ., Wang, X., Bi, X., 2022. Impact of cloud process in the mixing state and microphysical properties of soot particles: Implications in Light absorption enhancement. Journal of Geophysical Research: Atmospheres, 127, e2022JD037169.
  • Jain, S., Doherty, R. M., Sexton, D., Turnock, S., Li, C., Jia, Z., Shi, Z., and Pei, L., 2022. Future projections of daily hazy and clear weather conditions over the North China Plain using a Perturbed Parameter Ensemble. Atmospheric Chemistry Physics, 22, 7443–7460.
  • Liu, L., Li, W., Lin, Q., Wang, Y., Zhang, J., Zhu, Y., Yuan, Q., Zhou, S., Zhang, D., Baldo, C., Shi, Z., 2022. Size-dependence of aerosol iron solubility in an urban atmosphere. npj Climate and Atmospheric Science, 5, Article number: 53.
  • Meinander, O., Dagsson-Waldhauserova, P., Amosov, P., Aseyeva, E., Atkins, C., Baklanov, A., Baldo, C., Barr, S. L., Barzycka, B., Benning, L. G., Cvetkovic, B., Enchilik, P., Frolov, D., Gassó, S., Kandler, K., Kasimov, N., Kavan, J., King, J., Koroleva, T., Krupskaya, V., Kulmala, M., Kusiak, M., Lappalainen, H. K., Laska, M., Lasne, J., Lewandowski, M., Luks, B., McQuaid, J. B., Moroni, B., Murray, B., Möhler, O., Nawrot, A., Nickovic, S., O’Neill, N. T., Pejanovic, G., Popovicheva, O., Ranjbar, K., Romanias, M., Samonova, O., Sanchez-Marroquin, A., Schepanski, K., Semenkov, I., Sharapova, A., Shevnina, E., Shi, Z., Sofiev, M., Thevenet, F., Thorsteinsson, T., Timofeev, M., Umo, N. S., Uppstu, A., Urupina, D., Varga, G., Werner, T., Arnalds, O., and Vukovic Vimic, A.: Newly identified climatically and environmentally significant high-latitude dust sources. Atmospheric Chemistry Physics, 22, 11889–11930.
  • Pang, Y., Wang, Y., Wang, Z., Zhang, Y., Liu, L., Kong, S., Liu, F., Shi, Z., Li, W., 2021. Quantifying the fractal dimension and morphology of individual atmospheric soot aggregates. Journal of Geophysical Research – Atmosphere, 127, e2021JD036055.
  • Şahin, Ü. A., Harrison, R. M., Alam, M. S., Beddows, D. C. S., Bousiotis, D., Shi, Z., Crilley, L. R., Bloss, W., Brean, J., Khanna, I., and Verma, R.: Measurement Report: Interpretation of Wide Range Particulate Matter Size Distributions in Delhi. Atmospheric Chemistry Physics, 22, 5415–5433.
  • Saleem, M., Iqbal, J., Shi, Z., Garrett, S.H., Shah, M.H., 2022. Distribution and bioaccumulation of essential and toxic metals in tissues of thaila (Catla catla) from a natural lake, Pakistan and its possible health impact on consumers. Journal of Marine Science and Engineering, 10, 933.
  • Shi, Z. et al., 2022. The UK-China Collaboration to Optimise Net Zero Policy options for Air Quality and Health: Final Report. https://clean-air-research.org.uk/projects/cop-aq/
  • Shi, Z., Liu, B., Cheng, K., Elliott, R., Cole, M., Bryson, J.R., 2022. Quantifying the impact of clean air policy interventions for air quality management. http://epapers.bham.ac.uk/4040/
  • Singh, A., Bartington, S.E., Song, C., Ghaffarpassand, O., Kraftl, M., Shi, Z., Popo, F.D., Stacey, B., Hall, J., Thomas, G.N., Bloss, W.J., Leach, F.C.P., 2022. Impacts of emergency health protection measures upon air quality, traffic and public health: evidence from Oxford, UK. Environmental Pollution, 293, 118584.
  • Song, C., Becagli, S., Beddows, D.C.S., Brean, J., Browse, J., Dai, Q., Dall’Osto, M., Ferracci, V., Harrison, R.M., Harris, N., Li, W., Jones, A., Kirchgabner, A., Kramawijaya, A.G., Kurganskiy, A., Lupi, A., Mazzola, M., Severi, M., Traversi, R., Shi, Z., Understanding sources and drivers of aerosol in Svalbard with explainable machine learning. Environmental Science & Technology, 56, 16, 11189–11198
  • Srivastava, D., Vu, T.V., Shi, Z., Harrison, R.M., 2022. Secondary Organic Aerosols Formation from Anthropogenic VOCs in the Lab Experimental Studies. npj Climate and Atmospheric Sciences, 5, 22.
  • Wang, Y., Wu, L., Hu, W., Li, W., Shi, Z., Harrison, R., Fu, P., 2022. Stable iron isotopic composition of atmospheric aerosols. Npj Climate and Atmospheric Sciences, 5, Article number: 75.
  • Wang, Z., Shi, Z., Wang, F., Liang, W., Shi, G., Wang, W., Chen, D., Liang, D., Feng, Y., Russell, A.G., 2022. Implications for ozone control by understanding the survivor bias in observed ozone-volatile organic compounds system. Npj Climate and Atmospheric Sciences, 5, Article number: 39.
  • Wang, Z., Yu, H., Liang, W., Wang, F., Wang, G., Chen, D., Wang, W., Zhao, H., Feng, Y., Shi, Z., Shi, Guo, 2022. Ensemble source apportionment of criteria air pollutants and carbon dioxide based on online measurements. Journal of Cleaner Production, 370, 133468.
  • Wu, F., Cheng, Y., Hu, T., Song, N., Zhang, F., Shi, Z., Ho, H. S.S., Cao, J., Zhang, D., 2022. Saltation–Sandblasting Processes Driving Enrichment of Water-Soluble Salts in Mineral Dust. Environmental Science & Technology Letters, 9, 921-928.
  • Xu, J., Harrison, R.M., Song, C., Hou, S., Wei, L., Fu, P., Li, H., Li, W., Shi, Z., 2022. PM2.5-bound silicon-containing secondary organic aerosols (Si-SOA) in Beijing ambient air. Chemosphere, 288, 132377
  • Zhang, G., Hu, X., Sun, W., Yang, Y., Guo, Z., Fu, Y., Wang, H., Zhou, S., Li, L., Tang, M., Shi, Z., Chen, D., Bi, X., Wang, X., 2021. A comprehensive study about in-cloud processing of nitrate through coupled measurements of individual cloud residuals and cloud water. Atmospheric Chemistry Physics, 22, 9571–9582.
  • Zhang, J., Wang, Y., Teng, X., Xu, L., Liu, L., Zhang, Y., Xu, Y., Ren, L., Jiang, J., Shi, Z., Zhang, Y., Liu, D., Hu, M., Sun, Y., Martin, S.T., Li, W., 2021. Liquid-liquid phase separation reduces radiative absorption by aged black carbon aerosols. Communications Earth and Environment, 3, Article number: 128
  • Shi, Z., Liu, B., Cheng, K., Elliot, R., Cole, M., Bryson, J.R., 2022. Quantifying the impact of clean air policy interventions for air quality management: For air quality management. Working paper, doi: 10.25500/epapers.bham.00004040.
  • Zhang, Y., Zhang, X., Zhong, J., Sun, J., Shen, X., Zhang, Z., Xu, W., Wang, Y., Liang, L., Liu, Y., Hu, X., He, M., Pang, Y., Zhao, H., Ren, S., Shi, Z.*, 2021. On the Fossil and Non-fossil fuel Sources of Carbonaceous Aerosol with Radiocarbon and AMS-PMF Methods during Winter Hazy Days in a Rural Area of North China Plain. Environmental Research, 208, 112672.
  • Zhu, Y., Li, W., Wang, Y., Zhang, J., Liu, L., Xu, L., Xu, J., Shi, J., Shao, L., Fu, P., Zhang, D., and Shi, Z.*, 2022. Sources and processes of iron aerosols in a megacity of Eastern China. Atmospheric Chemistry and Physics. 22, 2191–220.

 

2021

  • Ai, Y., Ge, Y., Ran, Z., Li, X., Xu, Z., Chen, Y., Miao, X., Xu, X., Mao, H., Shi, Z., Jin, T., 2021. Quantifying Air Pollutant Emission from Agricultural Machinery Using Surveys — A Case Study in Anhui, China. Atmosphere, 12, 440.
  • Alam, M.S., Blosos, W., Brean, J., Brimblecombe, P., Chan, C., Chen, Y., Coe, H., Fu, P., Gani, S., Hamilton, J., Harrison, R., Jiang, J., Kulmala, M., Lugon, L., McFiggans, G., Mehra, A., Milson, A., Nelson, B., Pfrang, C., Sartelet, K., Shi, Z., Srivastava, D., Stewart, G., Styring, P., Su, H., van Pinxtern, D., Velasco, E., Yu, J.Z., 2021. General discussion: Aerosol formation and growth; VOC sources and secondary organic aerosols. Faraday Discussions, 226, 479-501.
  • Alfarra, M.R., Bloss, W.J., Chan, C., Chen, Y., Gani, S., Han, H., Harrison, R.M., Khan, M.A.H., Kim, K., Lee, J., Pfrang, C., Pöschl, U., Shi, Z., Styring, P., van Pinxteren, D., Wallington, T.J., Zhu, T., 2021. General discussion: sources, sinks and mitigation methods; Evaluation of health impacts. Faraday Discussions, 226, 607-616.
  • Alshammari, D., Bloss, W., Chen, Y., Chow, J.C., Gani, S., Harrison, R., Hu, D., Li, G., McFiggans, G., Milsom, A., Oyarzún Aravena, A.M., Pfrang, C., Shi, Z., Srivastava, D., Styring, P., Su, H., Watson, J.G., Xu, J., 2021. General discussion: Multiphase atmospheric chemistry, and source apportionment. Faraday Discussions, 226, 314-333.
  • An, Z., Li, X., Shi, Z., Williams, B.J., Harrison, R.M., Jiang, J., 2021. Frontier review on comprehensive two-dimensional gas chromatography for measuring organic aerosol. Journal of Hazardous Materials Letters, 2, 100013.
  • Bloss, W.J., Kramer, L., Crilley, L.R., Vu, T., Harrison, R.M., Shi, Z., Lee, J.D., Squires, F.A., Whalley, L.K., Slater, E., Woodward-Massey, R., Ye, Ch., Heard, D.E., Tong, S., Hou, S., Sun, Y., Xu, J., Wei, L., Fu, P., 2021. Faraday Discussions, 226, 223-238.
  • Bloss, W., Brimblecombe, P., Chen, Y., Coe, H., Gani, S., Gen, M., Grimmond, G., Harrison, R., McFiggans, G., Mihaylova, L., Pfrang, C., Shi, Z., Slater, J., Srivastava, D., Styring, P., Velasco, E., Wang, P., Yu, J.Z., 2021. General discussion: Urban air quality; Meteorological influences and air quality trends. Faraday Discussions, 226, 191-206.
  • Brean, J., Dall’Osto, M., Simo, R., Shi, Z., Beddows, D.C.S., Harrison, R.M., 2021. Open ocean and coastal new particle formation from sulfuric acid and amines around the Antarctic Peninsula. Nature Geoscience, 14, 383-388.
  • Campbell, S. J., Wolfer, K., Utinger, B., Westwood, J., Zhang, Z.-H., Bukowiecki, N., Steimer, S. S., Vu, T. V., Xu, J., Straw, N., Thomson, S., Elzein, A., Sun, Y., Liu, D., Li, L., Fu, P., Lewis, A. C., Harrison, R. M., Bloss, W. J., Loh, M., Miller, M. R., Shi, Z., and Kalberer, M., 2021. Atmospheric conditions and composition that influence PM2.5 oxidative potential in Beijing, China. Atmospheric Chemistry and Physics, 21, 5549–5573.
  • Dai, Q., Hou, L., Liu, B., Zhang, Y., Song, C., Shi, Z., Hopke, P.K., Feng, Y., 2021. Spring Festival and COVID‐19 lockdown: disentangling PM sources in major Chinese cities. Geophysical Research Letters, 48, e2021GL093403.
  • Hama, S., Kumar, P., Alam, M.S., Rooney, D.J., Bloss, W.J., Shi, Z., Harrison, R.M., Crilley, L.R., Khare, M., Gupta, S.K., 2021. Chemical source profiles of fine particles for five different sources in Delhi. Chemosphere, 274, 129913.
  • Hamilton, J., Bryant, D., Edwards, P., Ouyang, B., J. Bannan, T., Mehra, A., Mayhew, A., Hopkins, J. R., Dunmore, R. E., Squires, F., Lee, J. D., Newland, M., Worrall, S. D., Basak, A., Coe, H., Percival, C. J., Whalley, L. K., Heard, D. E., Slater, E., Jones, R. L., Cui, T., Surratt, J. D., Reeves, C. E., Mills, G., Grimmond, S., Sun, Y., Xu, W., Shi, Z. & Rickard, A. R., 2021. Key role of NO3 radicals in the production of isoprene nitrates and nitrooxyorganosulfates in Beijing. Environmental Science & Technology, 55, 842-853.
  • Harrison, R.M., Vu, T.V., Jafar, H., Shi, Z., 2021. More mileage in reducing urban air pollution from road traffic. Environment International, 149, 106329.
  • Hou, S., Liu, D., Xu, J., Vu, T. V., Wu, X., Srivastava, D., Fu, P., Li, L., Sun, Y., Vlachou, A., Moschos, V., Salazar, G., Szidat, S., Prévôt, A. S. H., Harrison, R. M., and Shi, Z., 2021. Source apportionment of carbonaceous aerosols in Beijing with radiocarbon and organic tracers: insight into the differences between urban and rural sites. Atmospheric Chemistry and Physics, 21, 8273–8292.
  • Ito, A., Ye, Y., Baldo, C., Shi, Z., 2021. Ocean fertilization by pyrogenic aerosol iron. npj Climate and Atmospheric Science, 4, 1-20.
  • Komalasari, D., Shi, Z., Harrison, R.M., 2021. Optimisation of a numerical model to simulate the dispersion and chemical transformations within the oxides of nitrogen/ozone system as traffic pollution enters an urban greenspace. Earth Systems Environment, 5, 927-937.
  • Li, W., Teng, X., Chen, X., Liu, L., Xu, L., Zhang, J., Wang, Y., Zhang, Y., Shi, Z., 2021. Organic Coating Reduces Hygroscopic Growth of Phase-Separated Aerosol Particles. Environmental Science & Technology, 2021, 55, 16339-16346
  • Li, W., Liu, L., Zhang, J., Xu, L., Wang, Y., Sun, Y., Shi, Z., 2021. Microscopic Evidence for Phase Separation of Organic Species and Inorganic Salts in Fine Ambient Aerosol Particles. Environmental Science & Technology, 55, 2234-2242.
  • Liu, L., Zhang, J., Zhang, Y., Wang, Y., Xu, L., Yuan, Q., Liu, D., Sun, Y., Fu, P., Shi, Z., and Li, W., 2021. Persistent residential burning-related primary organic particles during wintertime hazes in North China: insights into their aging and optical changes. Atmospheric Chemistry and Physics, 21, 2251–2265.
  • Liu., Zhang, J., Du, R., Teng, X., Hu, R., Yuan, Q., Tang, S., Ren, C., Huang, X., Xu, L., Zhang, Y., Zhang, X., Song, C., Liu, B., Lu, G., Shi, Z., Li, W., 2021. Chemistry of Atmospheric Fine Particles During the COVID‐19 Pandemic in a Megacity of Eastern China, Geophysical Research Letters, 48, e2020GL091611.
  • Qu, L., Wang, W., Li, M., Xu, X., Shi, Z., Mao, H., Jin, T., 2021. Dependence of pollutant emission factors and fuel consumption on driving conditions and gasoline vehicle types. Atmospheric Pollution Research, 12, 137-148.
  • Saleem, M., Shi, Z., Shah, M.H., 2021. Evaluation of Contamination Status and Health Risk Assessment of Essential and Toxic Metals in Cyprinus carpio from Mangla Lake, Pakistan. Biological Trace Element Research, 199, 4284–4294.
  • Shi, Z., Xu, J., Harrison, R.M., Bloss, W.J., Allan, J., Barratt, B., Coe, H., Doherty, R., Fu, P., Guan, D., Grimmond, S., Guo, X., He, K., Heard, D., Hewitt, N., Lee, J., Lewis, A., Li, J., Loh, M., Jones, R., Kalberer, M., Kelly, F., Miller, M., Monks, P., Netmitz, E., Palmer, P., Reeves, C., Shao, L., Sun, Z., Tao, S., Tong, S., Wang, X., Wild, O., Wu, Z., Xie, P., Zhang, Q., Zheng, M., Zhu, T., 2021. Atmospheric pollution and human health in a Chinese megacity (APHH-Beijing) programme: final report. Working Paper, doi: 10.25500/epapers.bham.00003381.
  • 时宗波, 徐婧莎,Roy Harrison,William Bloss,James Allan,Benjamin Barratt,Hugh Coe,Ruth Doherty,傅平青,Sue Grimmond,关大博,郭新彪,Jacqui Hamilton,贺克斌,Dwayne Heard,Nick Hewitt,Rod Jones,Markus Kalberer,Frank Kelly,James Lee,Ally Lewis,李杰,Miranda Loh,MarkMiller,Paul Monks,Eiko Netmitz,Paul Palmer,Claire Reeves,邵龙义,孙志伟,陶澍,佟胜睿,Lisa Whalley,王新明,王学军,Oliver Wild,吴志军,谢品华,张强,郑玫,朱彤,2021. 中国超大城市空气污染和人体健康(APHH-Beijing)中英联合研究计划:最终报告. Doi: 10.25500/epapers.bham.00003383.
  • Shi, Z., Loh, M., Jackson, C., Guan, D., 2021. APHH-Beijing clean air for health: how to protect yourself. Doi: 10.25500/edata.bham.00000632
  • Shi, Z., Song C., Liu, B., Lu, G., Xu, J., Vu, T.V., Elliot, R. J.R., Li, W., Bloss, W.J., Harrison, R.M., 2021. Abrupt but smaller than expected changes in surface air quality attributable to COVID-19 lockdowns. Science Advances, 7, eabd6696
  • Song, C., Dall’Osto, M., Lupi, A., Mazzola, M., Traversi, R., Becagli, S., Gilardoni, S., Vratolis, S., Yttri, K. E., Beddows, D. C. S., Schmale, J., Brean, J., Kramawijaya, A. G., Harrison, R. M., and Shi, Z., 2021. Differentiation of coarse-mode anthropogenic, marine and dust particles in the High Arctic islands of Svalbard. Atmospheric Chemistry and Physics, 21, 11317–11335.
  • Srivastava, D., Vu, T., Shi, Z., Harrison, R.M., 2021. Secondary Organic Aerosols Formation from Anthropogenic VOCs in the Lab Experimental Studies. npj Climate and Atmospheric Science, 4, in press
  • Srivastava, D., Xu, J., Vu, T. V., Liu, D., Li, L., Fu, P., Hou, S., Shi, Z., and Harrison, R. M., 2021. Insight into PM2.5 Sources by Applying Positive Matrix Factorization (PMF) at an Urban and Rural Site of Beijing. Atmospheric Chemistry and Physics, 21, 14703–14724.
  • Tian, Y., Harrison, R.M., Feng, Y., Shi, Z., Liang, Y., Li, Y., Xue, Q., Xu, J., 2021. Size− resolved source apportionment of particulate matter from a megacity in northern China based on one-year measurement of inorganic and organic components. Environmental Pollution, 289, 117932.
  • Tian, Y., Liu, X., Huo, R., Shi, Z., Sun, Y., Feng, Y., Harrison, R.M., 2021. Organic compound source profiles of PM2.5 from traffic emissions, coal combustion, industrial processes and dust. Chemosphere, 278, 130429.
  • Vu, T.V., Shi, Z., Harrison, R.M., 2021. Estimation of hygroscopic growth properties of source-related sub-micrometre particle types in a mixed urban aerosol. npj Climate and Atmospheric Science, 4, Article Number 21.
  • Wan, K., Shackley, S., Doherty, R.M., Shi, Z., Zhang, P., Glenk, K., Bo, X., Chang, L., Feng, Z., Hewitt, C.D., Wang, Q., Xu, J., Xu, J., 2021. Air quality services on climate time-scales for decision making: An empirical study of China. Journal of Cleaner Production, 312, 127651.
  • Wang, W., Shao, L., Mazzoleni, C., Li, Y., Kotthaus, S., Grimmond, S., Bhandari, J., Xing, J., Feng, X., Zhang, M., and Shi, Z., 2021. Measurement report: Comparison of wintertime individual particles at ground level and above the mixed layer in urban Beijing. Atmospheric Chemistry and Physics, 21, 5301–5314.
  • Wang, Y., Huang, J., Pan, Y., Shi, Z., He, C., Liu, F., Bi, L., Liu, D., Zhang, X., Li, W., 2022. Nonlinear enhancement of radiative absorption by black carbon in response to particle mixing structure. Geophysical Research Letters, 48, e2021GL096437.
  • Wu, L., Yue, S., Shi, Z., Hu, W., Chen, J., Ren, H., Deng, J., Ren, L., Fang, Y., Yan, H., Li, W., Harrison, R.M., Fu, P., 2021. Source forensics of inorganic and organic nitrogen using δ 15 N for tropospheric aerosols over Mt. Tai. npi Climate and Atmospheric Science, 4, Article number: 8.
  • Xu, J., Liu, D., Wu, X., Vu, T.V., Zhang, Y., Fu, P., Sun, Y., Xu, W., Zheng, B., Harrison, R.M., Shi, Z., 2021. Source apportionment of fine organic carbon at an urban site of Beijing using a chemical mass balance model. Atmospheric Chemistry and Physics, 21, 7321-7341.
  • Xu, J., Srivastava, D., Wu, X., Hou, S., Vu, T.V., Liu, D., Sun, Y., Vlachou, A., Moschos, V., Salazar, G., Szidat, S., Prevot, A.H., Fu, P., Harrison, R.M., Shi, Z., 2021. An evaluation of source apportionment of fine OC and PM2.5 by multiple methods: APHH-Beijing campaigns as a case study. Faraday Discussions, 226, 290-313.
  • Yuan, Q., Xu, J., Liu, L., Zhang, A., Liu, Y., Zhang, JU., Wan, X., Li, M., Qin, K., Cong, Z., Wang, Y., Kang, S., Shi, Z., Posfai, M., Li, W., 2021. Evidence for Large Amounts of Brown Carbonaceous Tarballs in the Himalayan Atmosphere. Environmental Science & Technology Letters, 8, 16-23.
  • Zhang, C., Shi, Z., Zhao, J., Zhang, Y., Yu, Y., Mu, Y., Yao, X., Feng, L., Zhang, F., Chen, Y., Liu, X., Shi, J., Gao, H., 2021. Impact of air emissions from shipping on marine phytoplankton growth. Science of the Total Environment, 769, 145488.
  • Zhang, G., Fu, Y., Peng, X., Sun, W., Shi, Z., Song, W., Hu, W., Chen, D., Lian, X., Li, L., Tang, M., Wang, X., Bi, X., 2021. Black carbon involved photochemistry enhances the formation of sulfate in the ambient atmosphere: Evidence from in situ individual particle investigation. Journal of Geophysical Research: Atmospheres, 126, e2021JD035226
  • Zhang, J., Yuan, Q., Liu, L., Wang, Y., Zhang, Y., Xu, L., Pang, Y., Zhu, Y., Niu, H., Shao, L., Yang, S., Liu, H., Pan, X., Shi, Z., Hu, M., Fu, P., Li, W., 2021. Trans‐Regional Transport of Haze Particles From the North China Plain to Yangtze River Delta During Winter. Journal of Geophysical Research – Atmosphere, 126, e2020JD033778.
  • Zhang, Y., Shi, Z., Wang, Y., Lu, L., Zhang, J., Li, J., Xia, Y., Ding, X., Liu, D., Kong, S., Niu, H., Fu, P., Zhang, X., Li, W., 2021. Fine particles from village air in northern China in winter: Large contribution of primary organic aerosols from residential solid fuel burning. Environmental Pollution, 272, 116420.

 

2020

  • Baldo, C., Formenti, P., Nowak, S., Chevaillier, S., Cazaunau, M., Pangui, E., Di Biagio, C., Doussin, J.-F., Ignatyev, K., Dagsson-Waldhauserova, P., Arnalds, O., MacKenzie, A. R., and Shi, Z., 2020. Distinct chemical and mineralogical composition of Icelandic dust compared to northern African and Asian dust, Atmospheric Chemistry and Physics, 20, 13521–13539
  • Biggart, M., Stocker, J., Doherty, R., Wild, O., Hollaway, M., Carruthers, D., Li, J., Zhang, Q., Kotthaus, S., Lee, J., Shi, Z., 2020. Street-scale air quality modelling for Beijing during a winter 2016 measurement campaign. Atmospheric Chemistry Physics, 20, 2755–2780
  • Brean, J., Beddows, D. C. S., Shi, Z., Temime-Roussel, B., Marchand, N., Querol, X., Alastuey, A., Minguillón, M. C., and Harrison, R. M., 2020. Molecular insights into new particle formation in Barcelona, Spain, Atmospheric Chemistry and Physics, 20, 10029–10045.
  • Chen, Y., Cai, J., Wang, Z., Peng, C., Yao, X., Tian, M., Han, Y., Shi, G., Shi, Z., Liu, Y., Yang, X., Zheng, M., Zhu, T., He, K., Zhang, Q., and Yang, F., 2020. Simultaneous measurements of urban and rural particles in Beijing – Part 1: Chemical composition and mixing state, Atmospheric Chemistry and Physics, 20, 9231–9247.
  • Chen, Y., Shi, G., Cai, J., Shi, Z., Wang, Z., Yao, X., Tian, M., Peng, C., Han, Y., Zhu, T., Liu, Y., Yang, X., Zheng, M., Yang, F., Zhang, Q., and He, K., 2020. Simultaneous measurements of urban and rural particles in Beijing – Part 2: Case studies of haze events and regional transport, Atmospheric Chemistry and Physics 20, 9249–9263.
  • Davis, A., Nasser, F., Lead, J.R., Shi, Z., 2020. Development and application of a ratiometric nanosensor for measuring pH inside the gastrointestinal tract of zooplankton. Environmental Science: Nano, 7, 1652-1660. (Front cover article)
  • Li, C., Di, C.L., Liu, C.Q., Yue, F.J., He, S.N., Shi, Z., 2020. Nitrate sources and formation of rainwater constrained by dual isotopes in Southeast Asia: Example from Singapore. Chemosphere, 241, 125024, doi: 10.1016/j.chemosphere.2019.125024
  • Steimer, S. S., Patton, D. J., Vu, T. V., Panagi, M., Monks, P. S., Harrison, R. M., Fleming, Z. L., Shi, Z., and Kalberer, M.: Differences in the composition of organic aerosols between winter and summer in Beijing, 2020. a study by direct-infusion ultrahigh-resolution mass spectrometry, Atmospheric Chemistry and Physics, 20, 13303–13318
  • Wan, K., Shackley, S., Doherty, R.M., Shi, Z., Zhang, P., Golding, N., 2020. Science-policy interplay on air pollution governance in China. Environmental Science & Policy 107, 150-157.
  • Wu, X., Chen, C., Vu, T.V., Baldo, C., Shen, X., Zhang, Q., Cen, K., Zheng, M., He, K., Shi, Z., Harrison, R.M., 2020. Source apportionment of fine organic carbon (OC) using receptor modelling at a rural site of Beijing: Insight into seasonal and diurnal variation of source contributions. Environmental Pollution, doi: 10.1016/j.envpol.2020.115078
  • Xu, J., Song, S., Harrison, R. M., Song, C., Wei, L., Zhang, Q., Sun, Y., Lei, L., Zhang, C., Yao, X., Chen, D., Li, W., Wu, M., Tian, H., Luo, L., Tong, S., Li, W., Wang, J., Shi, G., Huangfu, Y., Tian, Y., Ge, B., Su, S., Peng, C., Chen, Y., Yang, F., Mihajlidi-Zelić, A., Đorđević, D., Swift, S. J., Andrews, I., Hamilton, J. F., Sun, Y., Kramawijaya, A., Han, J., Saksakulkrai, S., Baldo, C., Hou, S., Zheng, F., Daellenbach, K. R., Yan, C., Liu, Y., Kulmala, M., Fu, P., and Shi, Z., 2020. An interlaboratory comparison of aerosol inorganic ion measurements by ion chromatography: implications for aerosol pH estimate, Atmospheric Measurement Techniques, 13, 6325–6341.
  • Xu, L., Fukushima, S., Sobanska, S., Murata, K., Naganuma, A., Liu, L., Wang, Y., Niu, H., Shi, Z., Kojima, T., Zhang, D., and Li, W., 2020. Tracing the evolution of morphology and mixing state of soot particles along with the movement of an Asian dust storm, Atmospheric Chemistry and Physics, 20, 14321–14332.
  • Xu, L., Zhang, J., Sun, X., Xu, S., Shan, M., Yuan, Q., Liu, L., Du, Z., Liu, D., Xu, D., Song, C., Liu, D., Lu, G., Shi, Z., 2020. Variation in concentration and sources of black carbon in a megacity of China during the COVID19 pandemic. Geophysical Research Letters, 47, e2020GL090444.
  • Zhang, H., Zhang, Y., Huang, Z., Acton, W.J., Wang, Z., Nemitz, E., Langford, B., Mullinger, N., Davidson, B., Shi, Z., Liu, D., Song, W., Yang, W., Zeng, J., Wu, Z., Fu, P., Zhang, Q., Wang, X., 2020. Vertical profiles of biogenic volatile organic compounds as observed online at a tower in Beijing. Journal of Environmental Sciences, doi: 10.1016/j.jes.2020.03.032
  • Zhang, J., Liu, L, Xu, L., Lin, Q., Zhao, H., Wang, Z., Guo, S., Hu, M., Liu, D., Shi, Z., Huang, D., Li, W., 2020. Exploring wintertime regional haze in northeast China: role of coal and biomass burning. Atmospheric Chemistry & Physics, 20, 5355-5372
  • Zhang, Y., Vu, T.V., Sun, J., He, J., Shen, X., Lin, W., Zhang, X., Zhong, J., Gao, W., Wang, Y., Fu, Z., Ma, Y., Li, W., Shi, Z., 2020. Significant Changes in Chemistry of Fine Particles in Wintertime Beijing from 2007 to 2017: Impact of Clean Air Actions. Environmental Science & Technology, 54, 1344-1352.
  • Zhu, Y., Li, W., Lin, Q., Yuan, Q., Liu, L., Zhang, J., Zhang, Y., Shao, L., Niu, H., Yang, S., Shi, Z., 2020. Iron solubility in fine particles associated with secondary acidic aerosols in east China. Environmental Pollution, 114769.

 

2019

  • Brean, J., Harrison, R.M., Shi, Z., Beddows, D.C.S., Acton, W.J.F., Hewitt, C.N., 2019. Observations of Highly Oxidised Molecules and Particle Nucleation in the Atmosphere of Beijing. Atmospheric Chemistry and Physics, 19, 14933–14947.
  • Bryant, D.J., Dixon, W.J., Hopkins, J.R., Dunmore, R.E., Pereira, K.L., Shaw, M., Squires, F.A., Bannan, T.J., Mehra, A., Worrall, S.D., Bacak, A., Coe, H., Percival, C.J., Whalley, L.K., Heard, D.E., Slater, E.J., Ouyang, B., Cui, T., Surratt, J.D., Liu, D., Shi, Z., Harrison, R., Sun, Y., Xu, W., Lewis, A.C., Lee, J.D., Richard, A.R., Hamilton, J.F., 2019. Strong anthropogenic control of secondary organic aerosol formation from isoprene in Beijing. Atmospheric Chemistry and Physics, 20, 7531–7552.
  • Fan, Y., Liu, C., Li, L., Ren, L., Ren, H., Zhang, Z., Li, Q., Wang, S., Hu, W., Deng, J., Wu, L., Zhong, S., Zhao, Y., Pavuluri, C.M., Li, X., Pan, X., Sun, Y., Wang, Z., Kawamura, K., Shi, Z., Fu, P., 2019. Large contributions of biogenic and anthropogenic sources to fine organic aerosols in Tianjin, North China. Atmospheric Chemistry and Physics, 20, 117-137, 10.5194/acp-20-117-2020
  • Liu, Y., Zheng, M., Yu, M., Cai, X., Du, H., Li, J., Zhou, T., Yan, C., Wang, X., Shi, Z., Harrison, R.M., Zhang, Q., He, K., 2019. High-time Resolution Source Apportionment of PM2.5 in Beijing with Multiple Models. Atmospheric Chemistry Physics, 19, 6595-6609, https://doi.org/10.5194/acp-19-6595-2019
  • Lyu, R., Alam, M.S., Stark, C., Xu, R., Shi, Z., Feng, Y., Harrison, R.M., 2019. Aliphatic Carbonyl Compounds (C8-C26) in Wintertime Atmospheric Aerosol in London, UK. Atmospheric Chemistry and Physics, 19, 2233–2246, doi: 10.5194/acp-19-2233-2019.
  • Lyu, R., Shi, Z., Alam, M.S., Wu, X., Liu, D., Vu, T.V., Stark, C., Fu, P., Feng, Y., Harrison, R.M., 2019. Insight into the Composition of Organic Compounds (≥ C6) in PM2.5 in Wintertime in Beijing, China. Atmospheric Chemistry and Physics, 19, 10865–10881, doi: 10.5194/acp-19-10865-2019.
  • Lyu, R., Shi, Z., Alam, M.S., Wu, X., Liu, D., Vu, T.V., Stark, C., Xu, R., Fu, P., Feng, Y., Harrison, R.M., 2019. Alkanes and aliphatic carbonyl compounds in wintertime PM2.5 in Beijing, China. Atmospheric Environment, 202, 244-255, doi: 10.1016/j.atmosenv.2019.01.023.
  • Ma, X., Xiao, Z., He, L., Shi, Z., Cao, Y., Tian, Z., Vu, T., Liu, J., 2019. Chemical composition and source apportionment of PM2.5 in urban areas of Xiangtan, Central South China. International Journal of Environmental Research and Public Health, 16(4), 539. https://doi.org/10.3390/ijerph16040539.
  • Shi, Z., 2019. Urban air pollution. In Hewitt, N. and Jackson, A., Atmospheric science for environmental scientists, 2nd edition. Wiley.
  • Shi, Z., Vu, T., Kotthaus, S., Harrison, R.M., Grimmond, S., Yue, S., Zhu, T., Lee, J., Han, Y., Demuzere, M., Dunmore, R.E., Ren, L., Liu, D., Wang, Y., Wild, O., Allan, J., Acton, W.J., Barlow, J., Barratt, B., Beddows, D., Bloss, W.J., Calzolai, G., Carruthers, D., Carslaw, D.C., Chan, Q., Chatzidiakou, L., Chen, Y., Crilley, L., Coe, H., Dai, T., Doherty, R., Duan, F., Fu, P., Ge, B., Ge, M., Guan, D., Hamilton, J.F., He, K., Heal, M., Heard, D., Hewitt, C.N., Hollaway, M., Hu, M., Ji, X. Jiang, R. Jones, M. Kalberer, F.J. Kelly, L. Kramer, B. Langford, C. Lin, A.C. Lewis, J. Li, W. Li, D., Liu, H., Liu, J., Loh, M., Lu, K., Lucarelli, F., Mann, G., McFiggans, G., Miller, M.R., Mills, G., Monk, P., Nemitz, E., O’Connor, F., Ouyang, B., Palmer, P.I., Percival, C., Popoola, O., Reeves, C., Rickard, A.R., Shao, L., Shi, G., Spracklen, D., Stevenson, D., Sun, Y., Sun, Z., Tao, S., Tong, S., Wang, Q., Wang, W., Wang, X., Wang, X., Wang, Z., Wei, L., Whalley, L., Wu, X., Wu, Z., Xie, P., Yang, F., Zhang, Q., Zhang, Y., Zhang, Y. and Zheng, M.. Introduction to Special Issue – In-depth study of air pollution sources and processes within Beijing and its surrounding region (APHH-Beijing). Atmospheric Chemistry Physics, 19, 7519–7546, https://doi.org/10.5194/acp-2018-922
  • Vu, V., Shi, Z. *, Cheng, J., Zhang, Q., He, K., Wang, S., Harrison, R.M., 2019. Assessing the impact of Clean Air Action Plan on Air Quality Trends in Beijing Megacity using a machine learning technique. Atmospheric Chemistry and Physics, 19, 11303-11314, doi: 10.5194/acp-19-11303-2019.
  • Yu, H., Li, W., Zhang, Y., Tunved, P., Dall’Osto, M., Shen, X., Sun, J., Zhang, X., Shi, Z., 2019. Organic coating on sulfate and soot particles in summer Arctic atmosphere. Atmospheric Chemistry and Physics, 19, 10433–10446, https://doi.org/10.5194/acp-19-10433-2019.
  • Zhang, C., Ito, A., Shi, Z., Aita, N.N., Yao, X., Chu, Q., Shi, J., Gong, X., Gao, H., 2019. Fertilization of the Northwest Pacific Ocean by East Asia Air Pollutants. Global Biogeochemical Cycles, 33, 690-702, doi: 10.1029/2018GB006146.
  • Zhang, W., Tong, S., Ge, M., An, J., Shi, Z., Hou, S., Xia, K., Qu, Y, Zhang, H., Chu, B., Sun, Y., He, H., 2019. Variations and sources of nitrous acid (HONO) during a severe pollution episode in Beijing in winter 2016. Science of the Total Environment, 648, 253-262, 10.1016/j.scitotenv.2018.08.133.
  • Zhou, H., Zhao, H., Hu, J., Li, M., Feng, Q., Qi, J., Shi, Z., Mao, H., Jin, T., 2019. Primary particulate matter emissions and secondary organic aerosol formation potential from the exhaust of a China V diesel engine. Atmospheric Environment, 218, 116987, doi: 10.1016/j.atmosenv.2019.116987

 

2018

  • Zhang, Y., Yuan, Q., Huang, D., Kong, S., Zhang, J., Wang, X., Lu, C., Shi, Z., Zhang, X., Sun, Y., Wang, Z., Shao, L, Li, W., 2018. Direct observations of fine primary particles from residential coal burning: insights into their morphology, composition, and hygroscopicity. JGR-Atmosphere, 123, 12,964–12,979 10.1029/2018JD028988.
  • Wu, X., Vu, T., Shi, Z., Liu, D., Harrison, R.M., Cen, K., 2018. Characterization and source apportionment of carbonaceous PM2.5 particles in China – A review. Atmospheric Environment, 189, 187-212: 10.1016/j.atmosenv.2018.06.025.
  • Liu, L, Zhang, J., Xu, L., Yuan, Q., Huang, D., Chen, J., Shi, Z., Sun, Y., Fu, P., Wang, Z., Zhang, D., Li, W., 2018. Cloud scavenging of abundant anthropogenic refractory particles at a mountain site in North China. Atmospheric Chemistry and Physics, 18, 14681-14693, https://doi.org/10.5194/acp-18-14681-2018
  • Sun, J., Lu, L., Xu, L., Wang, Y., Wu, Z., Hu, M., Shi, Z., Li, Y., Zhang, X., Chen, J., Li, W., 2018. Key Role of Nitrate in Phase Transitions of Urban Particles: Implications of Important Reactive Surfaces for Secondary Aerosol Formation. Journal of Geophysical Research – Atmosphere, 123, 1234-1243, 10.1002/2017JD027264.
  • Zhang, C., Gao, H., Yao, X., Shi, Z., Shi, J., Yu, Y., Meng, L., Guo, X., 2018. Phytoplankton growth responses to Asian dust additions in the Northwest Pacific Ocean versus the Yellow Sea. Biogeosciences, 15, 749-765, 10.5194/bg-15-749-2018.
  • Du, P., Gui, H., Zhang, J., Liu, J., Yu, T., Wang, J., Cheng, Y., Shi, Z., 2018. Number Size Distribution of Atmospheric Particles in a suburban Beijing in the Summer and Winter of 2015. Atmospheric Environment, 186, 32-44, 10.1016/j.atmosenv.2018.05.023.

 

2017

  • Zhang, J., Liu, L, Wang, Y., Ren, Y., Wang, X., Shi, Z., Zhang, D., Che, H., Zhao, H., Liu,Y., Niu, H., Chen, J., Zhan, X., Lingaswamy, A.P., Wang, Z., Li, W., 2017. Chemical composition, source, and process of urban aerosols during winter haze formation in Northeast China. Environmental Pollution, 231, 357e366.
  • Liu, L., Kong, S., Zhang, Y., Wang, Y., Xu, L., Yan, Q., Lingaswamy, A.P., Shi. Z., Lv, S., Niu, H., Shao, L., Hu, M., Zhang, D., Chen, J., Zhang, X., Li, W., 2017. Morphology, composition, and mixing state of primary particles from combustion sources — crop residue, wood, and solid waste. Scientific Reports, 7, article number 5047. doi:10.1038/s41598-017-05357-2.
  • Wang, Y., Liu, F., He, C., Bi. L., Cheng, T., Wang., Z., Zhang, H., Zhang, X., Shi, Z., Li, W, 2017. Fractal dimensions and mixing structures of soot particles during atmospheric processing. Environmental Science & Technology Letter, 4, 487-493, 10.1021/acs.estlett.7b00418.
  • Cao, F., Zhang, Y., Ren, L., Liu, J., Li, J., Zhang, G., Liu, D., Sun, Y., Wang, Z., Shi, Z., Fu, P., 2017. New insights into the sources and formation of carbonaceous aerosols in China: Potential application of dual carbon isotopes. National Science Review, 4, 804-806, nwx097, 10.1093/nsr/nwx097.
  • Pant, P., Shi, Z., Pope, F. D., Harrison, R. M., 2017. Characterization of traffic-related particulate matter emissions in a road tunnel in Birmingham, UK: trace metals and organic molecular markers. Aerosol and Air Quality Research, 17, 117-130, doi: 10.4209/aaqr.2016.01.0040.

 

2016

  • Li, W., Sun, J., Xu, L., Shi, Z., Riemer, N., Sun, Y., Fu, P., Zhang, J., Lin, Y., Shao, L., Chen, J., Zhang, X., Wang, Z., Wang, W., 2016. A conceptual framework for mixing structures in individual aerosol particles. Journal of Geophysical Research-Atmosphere, 121, doi:10.1002/2016JD025252
  • Herut, B., Rahav, E., Tsagaraki, T.M., Giannakourou, A., Tsiola, A., Psarra, S., Lagaria, A., Papageorgious, N., Mihalopoulos, N., Theodosi, C.N., Stathopolou, E., Scoullos, M., Krom, M.D., Stockdale, A., Shi, Z., Berman-Frank, I., Meador, T.B., Tanaka, T., Paraskevi, P., 2016. The Potential Impact of Saharan Dust and Polluted Aerosols on Microbial Populations in the East Mediterranean Sea, an Overview of a Mesocosm Experimental Approach. Frontiers in Marine Sciences, 3, Article 226, doi: 10.3389/fmars.2016.00226
  • Baker, A.R., Landing, W.M., Bucciarelli, E., Cheize, M. ., Fietz, S., Hayes, C.T., Kadko, D., Morton, P.L., Rogan, N., Sarthou, G., Shelley, R.U., Shi, Z., Shiller, A., van Hulten, M.M.P., 2016. Trace Element and Isotope Exchange at the Air – Sea Interface: Progress and Research Needs. Philosophical Transactions A, 374, 20160190. doi: 10.1098/rsta.2016.0190
  • Krom, M.D., Shi, Z., Stockdale, A., Berman-Frank, I., Giannakourou, A., Herut, B., Lagaria, A., Papageorgiou, N., Pitta, P., Psarra, S., Rahav, E., Scoullos, M., Stathopulou, E., Tsiola, A., Tsagaraki, T.M., 2016. Response of the Eastern Mediterranean microbial ecosystem to dust and dust affected by acid processing in the atmosphere, Frontiers of Marine Sciences, 3, 133, doi: 10.3389/fmars.2016.00133
  • Shi, Z., Salim, A., Nikolova, I., 2016. Highlights from Faraday Discussion: Chemistry in the Urban Atmosphere, United Kingdom, April 2016. Chemical Communications, 52, 9162-9172, doi: 10.1039/c66cc90296k.
  • Stockdale, A., Krom, M.D., Mortimer, R.J.G., Benning, L.G., Carslaw, K.S., Herbert, R., Shi, Z., Myriokefalitakis, S., Kanakidou, M., Nenes, A., 2016. Supply of bioavailable phosphorus to the oceans: understanding the nature of atmospheric acid processing of mineral dusts. PNAS, 113, 14639-14644, doi:/10.1073/pnas.1608136113 
  • Brune, W., Bloss, W., Shi, Z., Pope, F., Fuller, G., Monks, P.S. et al., 2016. Urban case studies: general discussion. Faraday Discussions, 189, 473-514. Doi: 10.1039/C6FD90021F.
  • Shi, Z., Herbert, R., 2016. The importance of atmospheric nutrients in the Earth system, Eos, 97, doi:10.1029/2016EO044133.

 

Before 2016

  • Taiwo, A.M., Harrison, R.M., Beddows, D.C.S., Shi, Z., 2014. Source apportionment of single particles sampled at the industrially polluted town of Port Talbort, United Kingdom by ATOFMS. Atmospheric Environment, 97, 155-165, doi: 10.1016/j.atmosenv.2014.08.009.
  • Li, W., Shi, Z., Yang, C., Yang, L., Dong, C., Wang, W., 2013. Individual metal-bearing particles in a regional haze caused by firecracker and firework emissions. Science of the Total Environment, 443, 464-469,doi:10.1016/j.scitotenv.2012.10.109.
  • Li, W., Shi, Z., Zhang, D., Zhang, X., Li, P., Feng, Q., Yuan, Q., Wang, W., 2012. Haze particles over a coal-burning region in the China Loess Plateau in winter: three flight missions in December 2010. Journal of Geophysical Research-Atmosphere, 117(D12), D12306, http://dx.doi.org/10.1029/2012JD017720.
  • Shi, Z., Krom, M.D., Bonneville, S., Benning, L.G., 2015. Atmospheric processing outside clouds increases soluble iron in mineral dust. Environmental Science & Technology, 49(3), 1472-74277, doi: 10.1021/es504623x.
  • He, K., Zhao, Q., Ma, Y., Duan, F., Yang, F., Shi, Z.B., Chen, G., 2012. Spatial and seasonal variability of PM2.5 acidity at two Chinese megacities: insights into the formation of secondary inorganic aerosols. Atmospheric Chemistry Physics, 12, 1377–1395, doi:10.5194/acp-12-1377-2012.
  • Tan, J.H., Guo, S.J., Ma, Y.L., Yang, F.M., He, K.B., Yu, Y.C., Wang, J.W., Shi, Z.B., Chen, G.C., 2012. Non-methane hydrocarbons and their ozone formation potentials in Foshan, China. Aerosol and Air Quality Research, 12: 383–394, doi: 10.4209/aaqr.2011.08.0127.
  • Shi, Z., Woodhouse, M., Carslaw, K., Krom M., Mann, G., Baker A., Savov, I., Fones, G., Brooks, B., Drake, N., Jickells T., Benning L., 2011. Minor effect of physical size sorting on iron solubility of transported mineral dust, Atmospheric Chemistry and Physics, 11, 8459-8469, doi:10.5194/acp-11-8459-2011.
  • Nenes, A., Krom, M., Mihalopoulos, N., Van Cappellen, P., Shi, Z., Bougiatioti, A., Zarmpas, P., Herubt, B., 2011. Atmospheric acidification of mineral aerosols: A source of bioavailable phosphorus for the oceans Atmospheric Chemistry and Physics, 11, 6265–6272, doi:10.5194/acp-11-6265-2011.
  • Shi, Z., Krom, M., Bonneville, S., Baker, A., Bristow, C., Drake, N., Mann, G., Carslaw, K., McQuaid, J., Jickells, T., Benning, L., 2011. Influence of chemical weathering and aging of iron oxides on the potential iron solubility of Saharan dust during simulated atmospheric processing. Global Biogeochemical Cycles, 25, GB2010, doi:10.1029/2010GB003837.
  • Shi, Z., Krom, M., Bonneville, S., Baker, A., Jickells, T., Benning, L., 2009. Formation of iron nanoparticles and increase in iron reactivity in the mineral dust during simulated cloud processing. Environmental Science & Technology, 43, 6592-6596, doi: 10.1021/es901294g.
  • Li, W., Shao, L. Shi, Z., Chen, J., Yang, L., Yuan, Q., Yan, C., Zhang, X., Wang, Y., Sun, J., Zhang, Y., Shen, X., Wang, Z., Wang, W., 2014. Mixing state and hygroscopicity of dust and haze particles before leaving the Chinese continent in the East Asian outflow. Journal of Geophysical Research-Atmosphere. 119, 1044-1059.
  • Li, W., Chi, J., Shi, Z., Chen, B., Wang, X., Wang, Y., Li, T., Chen, J., Zhang, D., Wang, Z., Shi, C., Wang, W., 2014. Composition and hygroscopicity of aerosol particles at Mt. Lu in South China: Implications for acid precipitation. Atmospheric Environment, 95, 626-636, doi: 10.1016/j.atmosenv.2014.06.003.
  • Taiwo, A., Beddows, D.C.S., Calzolai, G., Harrison, R.M., Lucarelli, F., Nava, S., Shi, Z., Valli, G., Vecchi, R., 2014. Receptor modeling of airborne particulate matter in the vicinity of a major steelworks site. Science of the Total Environment, 490, 488-500, doi: 10.1016/j.scitotenv.2014.04.118.
  • Taiwo, A., Harrison, R., Shi, Z., 2014. A review of receptor modeling of industrially emitted particulate matter. Atmospheric Environment, 97, 109-120.
  • Taiwo, A., Beddows, D.C., Shi, Z., Harrison, R., 2014. Mass and number size distribution of particulate matter components: comparison of an industrial and an urban background site. Science of the total Environment, 475, 29-38. doi: 10.1016/j.scitotenv.2013.
  • Kadar, E., Cunliffe, M., Fisher, A., Stople, B., Lead, J., Shi, Z., 2014. Chemical interaction of atmospheric mineral dust-derived nanoparticles with natural seawater-EPS and sunlight-mediated changes. Science of the total Environment, 468-169, 265-271, doi: 10.1016/j.scitotenv.2013.08.05
  • Kadar, E., Fisher, A., Stople, B., Calabrese, S., Lead, J., Valsamie-Jones, E., Shi, Z., 2014. Colloidal stability of nanoparticles derived from simulated cloud-processed mineral dusts. Science of the Total Environment, 466-467, 864-870.
  • Shi, Z., Krom, M., Jickells, T., Bonneville, S., Carslaw, K.S., Mihalopolous, N., Baker, A.R., Benning, L.G., 2012. Impacts on iron solubility in the mineral dust by processes in the source region and the atmosphere: A review. Aeolian Research, 5, 21-42, http://dx.doi.org/10.1016/j.aeolia.2012.03.001.
  • Yang, F., Tan, J., Shi, Z.B., Cai, Y., He, K., Ma, Y., Duan, F., Okuda, T., Tanaka, S., Chen, G., Bai, L., 2012. Five-year record of atmospheric precipitation chemistry in urban Beijing, China. Atmospheric Chemistry Physics, 12, 2025-2035, doi:10.5194/acp-12-2025-2012.
  • Shi, Z., Bonneville, S., Krom, M., Carslaw K., Jickells, T., Baker, A., Benning, L., 2011. Dissolution kinetics of iron in the mineral dust at low pH during simulated atmospheric processing. Atmospheric Chemistry and Physics, 11, 995-1007, doi:10.5194/acp-11-995-2011.
  • Shao, L, Li, W., Yang, S., Shi, Z., Lu, S., Mineralogical characteristics of airborne particles collected in Beijing during a severe dust storm period in spring 2002. Science in China-D, 50, 953-959.
  • Shi, Z., Shao, L., Jones, T. P., Lu, S., 2005. Microscopy and mineralogy of airborne particles collected during severe dust storm episodes in Beijing, China. Journal of Geophysical Research, 110, D01303, doi:10.1029/2004JD005073.
  • Shi, Z., Zhang, D., Hayashi, M., Ogata, H., Ji, H., Fujiie, W., 2008. Influences of sulfate and nitrate on the hygroscopic behaviors of coarse dust particles. Atmospheric Environment, 42, 822-827, doi:10.1016/j.atmosenv.2007.10.037.
  • Shi, Z., Zhang, D., Ji, H., Hasegawa, S., Hayashi, M., 2008. Modification of soot by volatile species in an urban atmosphere. Science of the Total Environment, 189, 195-201: doi:10.1016/j.atmosenv.2007.10.037.
  • Shi, Z., He, K., Xue, Z., Yang, F., Chen, Y., Ma, Y., Luo, J., 2009. Properties of individual aerosol particles and their relation to air mass origins in a south China coastal city. Journal of Geophysical Research, 114, D09212, doi:10.1029/2008JD011221.
  • Shao, L., Shi, Z., Jones, T. P., Li, J., Whittaker, A. G., BéruBé, K. A., 2006. Bioreactivity of particulate matter in Beijing air: Results from plasmid DNA assay. Science of the Total Environment, 367, 261-272, doi:10.1016/j.scitotenv.2007.08.016.
  • Harrison, R.M., Pope, F.D., Shi, Z., 2015. Trends in Local Air Quality 1970-2014. In Hester, R.E. and Harrison R.M., Still Only One Earth: Progress in the 40 Years Since the First UN Conference on the Environment. Issues in Environmental Science and Technology No. 40. Published by Royal Society of Chemistry, pp58-106. ISBN 978-78262-076-1.
  • Harrison, R.M., Pope, F.D., Shi, Z., 2014. Air Pollution. In Elias S.A. (Eds.) Reference Module in Earth Systems and Environmental Sciences. Elsevier Sciences, ISBN: 978-0-12-409548-9, doi: 10.1016/B978-0-12-409548-9.09097-7.
  • Shi, Z., He, K., Yu, X., Yao, Z., Yang, F., Ma, R., Ma, Y., Jia, Y., Zhang, J., 2007. Diurnal variation of number concentration and size distribution of ultrafine particles in the urban atmosphere of Beijing in winter, Journal of Environmental Sciences-China, 19, 933-938. doi:10.1016/S1001-0742(07)60154-5.
  • Shi, Z., He, K., Chen, Y., Yang, F., Zhang, J., Liu, Y., Ma,Y., 2008. Impact of fog processes on physico-chemical properties of airborne particles. Environmental Sciences, 29, 551-556. (In Chinese with English abstract)
  • Li, W., Shao, L., Shi, Z., Li, J., Yang, S., 2008. Physical and chemical characteristics of individual mineral particles in an urban fog episode. Environmental Sciences, 29, 254-258. (In Chinese with English abstract)
  • Chen, Y., Shi, Z., He, K., Ma, Y., Liu, Y., 2007. Physico-chemical characteristics of individual mineral particles collected during dust storm periods in Beijing. Research in Environmental Sciences, 20, 52-57. (In Chinese with English abstract)
  • Lu, S., Shao, L., Shi, Z., 2004. XRD analysis of mineral compositions in inhalable particulate matter (PM10). Environmental Monitoring in China, 20(1), 9-11. (In Chinese with English abstract)
  • Ji, H., Zhang, D., Shinohara, R., Fujiie, W., Koga, M., Shi, Z., and Nomiyama, K., 2007. Particulate polycyclic aromatic hydrocarbons in the urban atmosphere of Kumamoto, Japan under mild weather. Earozoru Kenkyu (Aerosol Research), 22(2), 135-142
  • Shao, L., He, T., Li, H., Shi, Z., Li, J., 2003. Characteristics of extractable organic matter in PM10 of urban area-case study of northwestern Beijing. Journal of China University of Mining & Technology, 32(4), 383-387. (In Chinese with English abstract)
  • Shao, L., Shi, Z., 2003. Microscopic characteristics and size distribution of summer PM10 in the air of a Northwestern urban site and a clean air site in Beijing. Environmental Sciences, 24, 11-16. (In Chinese with English abstract)
  • Shi, Z., Shao, L., Li, H., Whittake, A.G., Jones, T.P., Berube, K.A., Richards, R.J., 2002. Environmental Sciences, 23, 30-34. (In Chinese with English abstract)
  • Lu, S., Shao, L., Shi, Z., Li, H., Xiao, Z., 2003. Mineralogy study of inhalable particles in the atmosphere. Journal of Liaoning Technical University, 22(5), 707-710. (In Chinese with English abstract)
  • Whittaker, A.G, Jones, T. P., Shao, L. Y., Shi, Z. B. & Richards, R.J., 2003, Mineral dust in urban air, Beijing, China. Mineralogical Magazine, 67, 171-180.
  • Yang, F., He, K., Ma, Y., Shi, Z., Jia, Y., Chen, X., Cha, L., Fan, C., Ma, Y., 2006. Development and application of multi-channel PM2.5 species sampler. The Chinese Journal of Process Engineering, 6, 28-31. (In Chinese with English abstract)
  • Shi, Z., Shao, L., Jones, T.P., Whittaker, A.G., Richards, R.J., 2004. Oxidative stress on plasmid DNA induced by inhalable particles in the urban atmosphere. Chinese Science Bulletin, 49, 692-697.
  • Shi, Z., Shao, L., Jones, T.P., Whittaker, A.G, Lu, S., Bérubé, K.A., He, T. and Richards, R. J., 2003. Characterization of airborne individual particles collected in an urban area, a satellite city and a clean air area in Beijing, 2001. Atmospheric Environment, 37, 4097-4108, doi:10.1016/S1352-2310(03)00531-4.
  • Zhao, H., Shao, L., Shi, Z., 2003. Progress and future trend in indoor PM2.5 research. Environment and Health, 20, 310-312. (In Chinese)
  • Zhao, H., Shao., Shi, Z., 2003. Indoor air pollutants: types and control measures. Chongqing Environmental Sciences, 25, 3-6. (In Chinese)
  • Li, H., Zeng, F., Shao, L., Shi, Z., 2002. Current status of study on the human health effects of inhalable particulates. Journal of Environmental Health, 19(1), 85-87. (In Chinese with English abstract)
  • Li, H., Shao, L., Shan, Z., Shi, Z., 2001. The advances and prospects of study on particulate organics in the atmosphere. Environmental Monitoring in China, 17, 62-67. (In Chinese with English abstract)