2022年度阿里巴巴达摩院青橙奖

2021、2022年度科睿唯安 “高被引科学家”

2019年MIT科技评论35岁以下创新35人

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10.Tong, D., Cheng, J., Liu, Y., Yu, S., Yan, L., Hong, C., Qin, Y., Zhao, H., Zheng, Y., Geng, G., Li, M., Liu, F., Zhang, Y., Zheng, B., Clarke, L., and Zhang, Q,* 2020. Dynamic projection of anthropogenic emissions in China: methodology and 2015-2050 emission pathways under a range of socioeconomic, climate policy, and pollution control scenarios. Atmospheric Chemistry and Physics, 20, 5729–5757.

11.Liu, J.#, Tong, D.#, Zheng, Y. X., Cheng, J., Qin, X. Y., Shi, Q. R., Yan, L., Lei, Y., and Zhang, Q.*, 2021. Carbon and air pollutant emissions from China's cement industry 1990–2015: trends, evolution of technologies and drivers. Atmospheric Chemistry and Physics, 21, 5729–5757.

12.Cheng, J., Tong, D., Liu, Y., Bo, Y., Zheng, B., Geng, G., He, K., Zhang, Q., 2020. Air quality and health benefits from China's current and upcoming clean air policies. Faraday Discussions.

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14.Liu, J., Zheng, Y., Geng, G., Hong, C., Li, M., Li, X., Liu, F., Tong, D., Wu, R., Zheng, B., He, K., and Zhang, Q., 2020. Decadal changes in anthropogenic source contribution of PM2. 5 pollution and related health impacts in China, 1990–2015. Atmospheric Chemistry and Physics. 20(13), 7783-7799.

15.Zheng, Y., Zhang, Q., Tong, D., Davis, S. J., and Caldeira, K., 2020. Climate effects of China’s efforts to improve its air quality. Environmental Research Letters.

16.Huang, X., Ding, A., Gao, J., Zheng, B., Zhou, D., Qi, X., Tang, R., Wang, J., Ren, C., Nie, W., Chi, X., Xu, Z., Chen, L., Li, Y., Che, F., Pang, N., Wang, H., Tong, D., Qin, W., Cheng, W., Liu, W., Fu, Q., Liu, B., Chai, F., Davis, S. J., Zhang, Q., and He., K., 2020. Enhanced secondary pollution offset reduction of primary emissions during COVID-19 lockdown in China. National Science Review.

17.Fofrich, R., Tong, D., Calvin, K. V., de Boer H. S., Emmerling, J., Fricko, O., Fujimori, S., Luderer, G., Rogelj, J., and Davis, S. J., 2020. Early retirement of power plants in climate mitigation scenarios. Environmental Research Letters.

18.Ruggles, T.H., Farnham, D.J., Tong, D., and Caldeira, K., 2020. Developing reliable hourly electricity demand data through screening and imputation. Scientific Data, 7(1), pp.1-14.

19.Qin, Y., Abatzoglou, J. T., Siebert, S., Huning, L., AghaKouchak, A., Mankin, J. S., Hong, C., Tong, D., Davis, S. J., and Mueller, N. D., 2020. Agricultural risks from changing snowmelt. Nature Climate Change, 10, p459-465.

20.Hong, C., Mueller, N. D., Burney, J. A., Zhang, Y., AghaKouchak, A., Moore, F. C., Qin, Y., Tong, D., and Davis, S. J., 2020. Impacts of ozone and climate change on yields of perennial crops in California. Nature Food, 1, p166-172.

21.Xue, T., Liu, J., Zhang, Q., Geng, G., Zheng, Y., Tong, D., Liu, Z., Guan, D., Bo, Y., Zhu, T., He, K., and Hao, J., 2019. Rapid improvement of PM2.5 pollution and associated health benefits in China during 2013–2017. Science China Earth Sciences, 62, p1847-1856.

22.Hong, C., Zhang, Q., Zhang, Y., Davis, S. J., Tong, D., Zheng, Y., Liu, Z., Guan, D., He, K. and Schellnhuber, H. J., 2019. Impacts of climate change on future air quality and human health in China. Proceedings of the National Academy of Sciences of the United States of America, 116(35), pp.17193-17200.

23.Wu, R., Liu, F., Tong, D., Zheng, Y., Lei, Y., Hong, C., Li, M., Liu, J., Zheng, B., Bo, Y. Chen, X., Li, X. and Zhang, Q., 2019. Air quality and health benefits of China’s emission control policies on coal-fired power plants during 2005–2020. Environmental Research Letters, 14(9), p.094016.

24.Li, M., Zhang, Q., Zheng, B., Tong, D., Lei, Y., Liu, F., Hong, C., Kang, S., Yan, L., Zhang, Y., Bo, Y., Su, H., Cheng, Y. and He, K., 2019. Persistent growth of anthropogenic non-methane volatile organic compound (NMVOC) emissions in China during 1990–2017: drivers, speciation and ozone formation potential. Atmospheric Chemistry and Physics, 19(13), pp.8897-8913.

25.Geng, G., Xiao, Q., Zheng, Y., Tong, D., Zhang, Y., Zhang, X., Zhang, Q., He, K. and Liu, Y., 2019. Impact of China’s Air Pollution Prevention and Control Action Plan on PM 2.5 chemical composition over eastern China. Science China Earth Sciences, pp.1-13.

26.Zhang, Y., Li, M., Cheng, Y., Geng, G., Hong, C., Li, H., Li, X., Tong, D., Wu, N., Zhang, X., Zheng, B., Zheng Y., Bo, Y., Su, H. and Zhang, Q., 2019. Modeling the aging process of black carbon during atmospheric transport using a new approach: a case study in Beijing. Atmospheric Chemistry and Physics, 19(14), pp.9663-9680.

27.Qin, Y., Mueller, N. D., Siebert, S., Jackson, R. B., AghaKouchak, A., Zimmerman, J. B., Tong, D., Hong, C., Davis, S. J., 2019. Flexibility and intensity of global water use. Nature Sustainability, 2, 515–523.

28.Cheng, J., Su, J., Cui, T., Li, X., Dong, X., Sun, F., Yang, Y., Tong, D., Zheng, Y., Li, Y., Li, J, Zhang, Q., and He, K., 2019. Dominant role of emission reduction in PM2.5 air quality improvement in Beijing during 2013–2017: a model-based decomposition analysis. Atmospheric Chemistry and Physics, 19(9), pp.6125-6146.

29.Ma, T., Duan, F., He, K., Qin, Y., Tong, D., Geng, G., Liu, X., Li, H., Yang, S., Ye, S. Xu, B., Zhang, Q. and Ma, Y., 2019. Air pollution characteristics and their relationship with emissions and meteorology in the Yangtze River Delta region during 2014–2016. Journal of Environmental Sciences, 83, p. 8-20.

30.Xue, T., Zheng, Y., Tong, D., Zheng, B., Li, X., Zhu, T. and Zhang, Q., 2019. Spatiotemporal continuous estimates of PM2.5 concentrations in China, 2000–2016: A machine learning method with inputs from satellites, chemical transport model, and ground observations. Environment international, 123, pp.345-357.

31.Wang, J., Ni, R., Lin, J., Tan, X., Tong, D., Zhao, H., Zhang, Q., Lu, Z., Streets, D., Pan, D. and Huang, Y., Guan, D., Feng, K., Yan, Y., Hu, Y., Liu, M., Chen, L., and Liu, P., 2019. Socioeconomic and atmospheric factors affecting aerosol radiative forcing: Production-based versus consumption-based perspective. Atmospheric Environment, 200, pp.197-207.

32.Zheng, B., Tong, D., Li, M., Liu, F., Hong, C., Geng, G., Li, H., Li, X., Peng, L., Qi, J. Yan, L., Zhang, Y., Zhao, H., Zheng, Y., He, K., and Zhang, Q., 2018. Trends in China's anthropogenic emissions since 2010 as the consequence of clean air actions. Atmospheric Chemistry and Physics, 18(19), pp.14095-14111.

33.Wang, T., Wang, P., Theys, N., Tong, D., Hendrick, F., Zhang, Q. and Roozendael, M.V., 2018. Spatial and temporal changes in SO2 regimes over China in the recent decade and the driving mechanism. Atmospheric Chemistry and Physics, 18(24), pp.18063-18078.

34.Zheng, B., Zhang, Q., Davis, S.J., Ciais, P., Hong, C., Li, M., Liu, F., Tong, D., Li, H. and He, K., 2018. Infrastructure Shapes Differences in the Carbon Intensities of Chinese Cities. Environmental science & technology, 52(10), pp.6032-6041.

35.Zhang, Y., Li, X., Li, M., Zheng, Y., Geng, G., Hong, C., Li, H., Tong, D., Zhang, X., Cheng, Y., Su, H. and He, K., and Zhang, Q., 2018. Reduction in black carbon light absorption due to multi-pollutant emission control during APEC China 2014. Atmospheric Chemistry and Physics, 18(14), pp.10275-10287.

36.Zhang, X., Zhang, Q., Hong, C., Zheng, Y., Geng, G., Tong, D., Zhang, Y. and Zhang, X., 2018. Enhancement of PM2.5 Concentrations by Aerosol‐Meteorology Interactions Over China. Journal of Geophysical Research: Atmospheres, 123(2), pp.1179-1194.

37.Liu, F., Beirle, S., Zhang, Q., van der A, R. J., Zheng, B., Tong, D. and He, K., 2017. NOx emission trends over Chinese cities estimated from OMI observations during 2005 to 2015. Atmospheric Chemistry and Physics, 17(15), pp.9261-9275.

38.Zheng, Y., Xue, T., Zhang, Q., Geng, G., Tong, D., Li, X. and He, K., 2017. Air quality improvements and health benefits from China’s clean air action since 2013. Environmental Research Letters, 12(11), p.114020.

39.Li, M., Liu, H., Geng, G., Hong, C., Liu, F., Song, Y., Tong, D., Zheng, B., Cui, H., Man, H., Zhang, Q., and He, K., 2017. Anthropogenic emission inventories in China: a review. National Science Review, 4(6), pp.834-866.

40.Geng, G., Zhang, Q., Tong, D., Li, M., Zheng, Y., Wang, S. and He, K., 2017. Chemical composition of ambient PM2.5 over China and relationship to precursor emissions during 2005–2012. Atmospheric Chemistry and Physics, 17(14), pp.9187-9203.

41.Zheng, B., Zhang, Q., Tong, D., Chen, C., Hong, C., Li, M., Geng, G., Lei, Y., Huo, H. and He, K., 2017. Resolution dependence of uncertainties in gridded emission inventories: a case study in Hebei, China. Atmospheric Chemistry and Physics, 17(2), pp.921-933.

42.Liu, F., Zhang, Q., van der A, R. J., Zheng, B., Tong, D., Yan, L., Zheng, Y. and He, K., 2016. Recent reduction in NOx emissions over China: synthesis of satellite observations and emission inventories. Environmental Research Letters, 11(11), p.114002.

43.Liu, F., Zhang, Q., Tong, D., Zheng, B., Li, M., Huo, H. and He, K.B., 2015. High-resolution inventory of technologies, activities, and emissions of coal-fired power plants in China from 1990 to 2010. Atmospheric Chemistry and Physics, 15(23), pp.13299-13317.