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Gao A, Wang J, Poetzscher J, Wang, P.*, et al. Coordinated health effects attributable to particulate matter and other pollutants exposures in the North China Plain[J]. Environmental Research, 2022: 112671.
Meng X, Wang W, Shi S, Wang, P.,et al. Evaluating the spatiotemporal ozone characteristics with high-resolution predictions in mainland China, 2013–2019[J]. Environmental Pollution, 2022: 118865.
Wang P, Wang P, Chen K, et al. Ground-level ozone simulation using ensemble WRF/Chem predictions over the Southeast United States[J]. Chemosphere, 2022, 287: 132428.
Wang P., Zhu, S., Zhang M., et al. (2021). 大气氧化性及其对二次污染物形成的贡献. Chinese Science Bulletin. 10.1360/TB-2021-0761.
Wang, P.*, Liu, Y., Dai, J., Fu, X., Wang, X., Guenther, A., and Wang, T*.: Isoprene Emissions Response to Drought and the Impacts on Ozone and SOA in China, Journal of Geophysical Research: Atmosphere,126, e2020JD033263.
Wang, P., Shen, J., Zhu, S., Gao, M., Ma, J., Liu, J., Gao, J., and Zhang, H*. (2021):Regional transport: a prominent contributor to short-term PM2.5-related health risk during haze days in the Yangtze River Delta, Environmental Pollution, 275, 116672.
Wang, P., Shen, J., Xia, M., Sun, S., Zhang, Y*., Zhang, H., and Wang, X. (2021):Unexpected enhancement of ozone exposure and health risks during National Day in China,Atmos. Chem. Phys.,21, 10347–10356.
Zhang, M., Katiyar, A., Zhu, S., Shen, J., Xia, M., Ma, J., Kota, S. H., Wang, P.*, and Zhang, H.*(2021): Impact of reduced anthropogenic emissions during COVID-19 on air quality in India, Atmos. Chem. Phys., 21, 4025–4037.
Zhu, S., Poetzscher, J., Shen, J., Wang, S., Wang, P.*, and Zhang, H*. (2021):Comprehensive Insights Into O3 Changes During the COVID-19 From O3 Formation Regime and Atmospheric Oxidation Capacity, Geophysical Research Letters,48, e2021GL093668.
Wang, Y., Zhu, S., Ma, J., Wang, P., Wang, P.*, and Zhang, H*. (2021): Enhanced atmospheric oxidation capacity and associated ozone increases during COVID-19 lockdown in the Yangtze River Delta, Science of The Total Environment, 768, 144796.
Wang, S., Zhang, Y., Ma, J., Zhu, S., Shen, J., Wang, P.*, and Zhang, H*. (2021).: Responses of decline in air pollution and recovery associated with COVID-19 lockdown in the Pearl River Delta, Science of The Total Environment, 756, 13868.
Shen, J., Zhao, Q., Cheng, Z.*, Wang, P.*, Ying, Q., Liu, J., & Fu, Q. (2020). Insights into source origins and formation mechanisms of nitrate during winter haze episodes in the Yangtze River Delta. Science of The Total Environment, 140187.
Wang, P., Wang, T., & Ying, Q. (2020). Regional source apportionment of summertime ozone and its precursors in the megacities of Beijing and Shanghai using a source-oriented chemical transport model. Atmospheric Environment, 224, 117337.
Sun, S., Jin, J., Xia, M., Liu, Y., Gao, M., Zou, C.,Wang, T., Lin, Y., Wu, L., Mao, H.*, & Wang, P.* (2020). Vehicle emissions in a middle-sized city of China: Current status and future trends. Environment international, 137, 105514.
Liu, L., Shen J., Zhen Cheng. Z.*, Wang, P.*, Ying, Q., Zhao, Q., Zhang Y., Zhao, Y., Fu, Q. (2020). Source apportionment and regional transport of anthropogenic secondary organic aerosol during winter pollution periods in the Yangtze River Delta, China. Science of the Total Environment, 710, 25.
Wang, P., Chen, Y., Hu, J., Zhang, H., & Ying, Q. (2019). Source apportionment of summertime ozone in China using a source-oriented chemical transport model. Atmospheric Environment, 211, 79-90.
Sun, S., Zhao, G., Wang, T., Jin, J., Wang, P.*, Lin, Y., Ying, Q., Mao, H. (2019). Past and future trends of vehicle emissions in Tianjin, China, from 2000 to 2030. Atmospheric Environment, 209, 182-191.
Li, Y., Lin, Y., Zhao, J., Liu, B., Wang, T., Wang, P.*, & Mao, H.* (2019). Control of NOx emissions by air staging in small-and medium-scale biomass pellet boilers. Environmental Science and Pollution Research, 1-13.
Wang, P., Chen, Y., Hu, J., Zhang, H., & Ying, Q. (2019). Attribution of Tropospheric Ozone to NOx and VOC Emissions: Considering Ozone Formation in the Transition Regime. Environmental science & technology,53(3), 1404-1412.
Wang, P., Ying, Q., Zhang, H., Hu, J., Lin, Y., & Mao, H. (2018). Source apportionment of secondary organic aerosol in China using a regional source-oriented chemical transport model and two emission inventories. Environmental Pollution, 237, 756-766.
Wang, P., Schade, G., Estes, M., & Ying, Q. (2017). Improved MEGAN Predictions of Biogenic Isoprene in the Contiguous United States. Atmospheric environment, 148, 337-351.
Wang, P., Chen, K., Zhu, S., Wang, P., & Zhang, H. (2020). Severe air pollution events not avoided by reduced anthropogenic activities during COVID-19 outbreak. Resources Conservation and Recycling, 158, 104814.
Fu, X., Wang, T., Gao, J., Wang, P., Liu, Y., Wang, S., Zhao, B., & Xue, L. (2020). Persistent Heavy Winter Nitrate Pollution Driven by Increased Photochemical Oxidants in Northern China. Environmental Science & Technology, 54(7), 3881-3889.
Dai, J., Liu, Y., Wang, P., Fu, X., Xia, M., & Wang, T. (2020). The impact of sea-salt chloride on ozone through heterogeneous reaction with N2O5 in a coastal region of south China. Atmospheric Environment, 117604.
Wu, L., Ren, H., Wang, P., Chen, J., Fang, Y., Hu, W., Ren, L., Deng, J., Song, Y., Li, J., Sun, Y., Wang, Z., Liu, C., Ying, Q., Fu, P. (2019). Aerosol Ammonium in the Urban Boundary Layer in Beijing: An Insight from Nitrogen Isotope Ratios. Environmental Science & Technology Letters, 2019, 6, 7, 389-395.
Qiao, X., Wang, P., Zhang, J., Zhang, H., Tang, Y., Hu, J., & Ying, Q. (2019). Spatial-temporal variations and source contributions to forest ozone exposure in China. Science of The Total Environment, 674, 189-199.
Hu, J., Wang, P., Ying, Q., Zhang, H., Chen, J., Ge, X., ... & Zhao, Y. (2017). Modeling biogenic and anthropogenic secondary organic aerosol in China. Atmospheric Chemistry and Physics, 17(1), 77-92.
Zhang, J., Wang, P., Li, J., Mendola, P., Sherman, S., & Ying, Q. (2016). Estimating population exposure to ambient polycyclic aromatic hydrocarbon in the United States–Part II: Source apportionment and cancer risk assessment. Environment international, 97, 163-170.
Zhang, J., Li, J., Wang, P., Chen, G., Mendola, P., Sherman, S., & Ying, Q. (2017). Estimating population exposure to ambient polycyclic aromatic hydrocarbon in the United States–Part I: Model development and evaluation. Environment international, 99, 263-274.
Shi, Z., Li, J., Huang, L., Wang, P., Wu, L., Ying, Q., ... & Hu, J. (2017). Source apportionment of fine particulate matter in China in 2013 using a source-oriented chemical transport model. Science of the Total Environment, 601, 1476-1487.
Song, C., Ma, C., Zhang, Y., Wang, T., Wu, L., Wang, P., ... & Zou, C. (2018). Heavy-duty diesel vehicles dominate vehicle emissions in a tunnel study in northern China. Science of the Total Environment, 637, 431-442.