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  1. 刘婵芳, 张傲星*, 房庆, 叶毓婧, 杨红龙, 陈炯恺, 吴雯潞, 侯岳, 莫佳佳, 傅宗玫. (2023), 深圳市2022年春季新冠疫情管控期间空气质量分析[J/OL], 环境科学:1-18, doi:10.13227/j.hjkx.202205313. 已接收
  2. Zhang, A., Fu, T.-M.*, Feng, X., Guo, J., Liu, C., Chen, J., Mo, J., Zhang, X., Wang, X., Wu, W., Hou, Y., Yang, H., Lu, C. (2023), Deep learning-based ensemble forecasts and predictability assessments for surface ozone pollution. Geophysical Research Letters, e2022GL102611, doi:10.1029/2022GL102611. Full text
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  6. Pu, D., Zhu, L., De Smedt, I., Li, X., Sun, W., Wang, D., Liu, S., Li, J., Shu, L., Chen, Y., Sun, S., Zuo, X., Fu, W., Xu, P., Yang, X., Fu, T.-M. (2022), Response of anthropogenic volatile organic compound emissions to urbanization in Asia probed with TROPOMI and VIIRS satellite observations, Geophysical Research Letters, e2022GL099470, doi:10.1029/2022GL099470. PDF Full text.
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  9. Xu, X., Feng, X., Lin, H., Zhang, P., Huang, S., Song, Z., Peng, Y., Fu, T.-M., Zhang, Y. (2022), Modeling the high-mercury wet deposition in the southeastern US with WRF-GC-Hg v1.0, Geoscientific Model Development, 15, 3845–3859, doi:10.5194/gmd-15-3845-2022.PDF Full text.
  10. Zhai, J., Yang, X., Li, L., Bai, B., Liu, P., Huang, Y., Fu, T.-M., Zhu, L., Zeng, Z., Tao, S., Lu, X., Ye, X., Wang, X., Wang, L., Chen, J. (2022), Absorption enhancement of black carbon aerosols constrained by mixing-state heterogeneity, Environmental Science & Technology, 56(3), 1586–1593, doi:10.1021/acs.est.1c06180. PDF Full text
  11. Xing, L., Fu, T.-M., Liu, T., Qin, Y., Zhou, L., Chan, C. K., Guo, H., Yao, D., Duan, K. (2022), Estimating organic aerosol emissions from cooking in winter over the Pearl River Delta region, China, Environmental Pollution, 292(A), 118266, doi:10.1016/j.envpol.2021.118266. PDF Full text
  12. Cao, H., Henze, D. K., Cady-Pereira, K., McDonald, B. C., Harkins, C., Sun, K., Bowman, K. W., Fu, T.-M., Nawaz, M. O. (2021), COVID-19 lockdowns afford the first satellite-based confirmation that vehicles are an under-recognized source of urban NH3 pollution in Los Angeles, Environmental Science & Technology Letters, 9(1), 3-9, doi:10.1021/acs.estlett.1c00730. PDF Full text
  13. Feng, X., Lin, H., Fu, T.-M.*, Sulprizio, M. P., Zhuang, J., Jacob, D. J., Tian, H., Ma, Y., Zhang, L., Wang, X., Chen, Q., Han, Z. (2021), WRF-GC (v2.0): online two-way coupling of WRF (v3.9.1.1) and GEOS-Chem (v12.7.2) for modeling regional atmospheric chemistry-meteorology interactions, Geosci. Model. Dev., 14,3741-3768,doi:10.5194/gmd-14-3741-2021. PDF Full text
  14. Wang, X., Fu, T.-M.*, Zhang, L.*, Cao, H., Zhang, Q. Ma, H., Shen, L., Evans, M., Ivatt, P., Lu., X., Chen, Y., Zhang, L., Feng, X., Yang, X., Zhu, L., Henze, D. (2021), Sensitivities of ozone air pollution in the Beijing-Tianjin-Hebei area to local and upwind precursor emissions using adjoint modelling, Environmental Science & Technology, 55(9),5752-5762, doi:10.1021/acs.est.1c00131. PDF Full text.
  15. Li, Y., Fu, T.-M.*, Yu, J. Z.*, Feng, X., Zhang, L., Chen, J., Boreddy, S. K. R., Kawamura, K., Fu, P., Yang, X., Zhu, L., Zeng, Z. (2021), Impacts of chemical degradation on the global budget of atmospheric levoglucosan and its use as a biomass burning tracer, Environmental Science & Technology, 55(8), 5525-5536, doi:10.1021/acs.est.0c07313. PDF Full text.
  16. Zhang, R., Gen, M. Fu, T.-M., Chan, C. (2021), Production of formate via oxidation of glyoxal promoted by particulate nitrate photolysis, Environmental Science & Technology, 55(9), 5711-5720, doi:10.1021/acs.est.0c081999. PDF Full text
  17. Hu, S., Wang, D., Wu, J., Zhou, L., Feng, X., Fu, T.-M., Yang, X., Ziegler, A. D., Zeng, Z. (2021), Aerosol presence reduces the diurnal temperature range: an interval when the COVID-19 pandemic reduced aerosols revealing the effect on climate, Environmental Science: Atmospheres, doi:10.1039/D1EA00021G. PDF Full text
  18. Sun, W., Zhu, L., De Smedt, I., Bai, B., Pu, D., Chen, Y., Shu, L., Wang, D., Fu, T.-M., Wang, X., and Yang, X. (2021): Global Significant Changes in Formaldehyde (HCHO) Columns Observed from Space at the Early Stage of the COVID-19 Pandemic, Geophys. Res. Lett, doi:10.1029/2020GL091265. PDF Full text
  19. Fan, W., Liu, Y., Chappell, A. Dong, L., Xu, R. Ekstrom, M., Fu., T.-M., Zeng Z. (2021), Evaluation of global reanalysis land surface wind speed trends to support wind energy development using in situ observations, J. Applied Meteorology and Climatology, 60(1), 33-50, doi:10.1175/JAMC-D-20-0037.1. PDF Full text
  20. Lin, H., Feng, X., Fu, T.-M.*, Tian, H., Ma, Y., Zhang, L., Jacob, D.J., Yantosca, R.M., Sulprizio, M.P., Lundgren, E.W., Zhuang, J., Zhang, Q., Lu, X., Zhang, L., Shen, L., Guo, J., Eastham, S.D., Keller, C.A. (2020), WRF-GC (v1.0): online coupling of WRF (v3.9.1.1) and GEOS-Chem (v12.2.1) for regional atmospheric chemistry modeling – Part 1: Description of the one-way model, Geosci. Model Dev., doi:10.5194/gmd-13-3241-2020. PDF Full text
  21. Elguindi, N., Granier, C., Stavrakou, S., Darras, S., Bauwens, M., Cao, H., Chen, C., Denier van der Gon, H. A. C., Dubovik, O., Fu, T.-M., Henze, D. K., Jiang, Z., Keita, S., Kuenen, J. J. P., Kurokawa, J., Liousse, C., Miyazaki, K., Muller, J.-F., Qu, Z., Solmon, F., Zheng, B. (2020), Intercomparison of magnitudes and trends in anthropogenic surface emissions from bottom-up inventories, top-down estimates, and emission scenarios. Earth's Future,doi:10.1029/2020EF001520PDF Full text
  22. Ma, Y., Fu, T.-M.*, Tian, H., Gao, J., Hu, M., Guo, J., Zhang, Y., Sun, Y., Zhang, L., Yang, X., Wang, X. (2020), Emergency Response Measures to Alleviate a Severe Haze Pollution Event in Northern China during December 2015: Assessment of Effectiveness. Aerosol and Air Quality Research, doi:10.4209/aaqr.2019.09.0442. Full text
  23. Wang, X., Ye, X., Chen, J., Wang, X., Yang, X., Fu, T.-M., Zhu, L., Liu, C. (2020), Direct links between hygroscopicity and mixing state of ambient aerosols: estimating particle hygroscopicity from their single-particle mass spectra, Atmos. Chem. Phys., 20, 6273–6290, doi:10.5194/acp-20-6273-2020. Full text
  24. Xu, X., Lu, X., Li, X. Liu, Y., Wang, X., Chen, H., Chen, J., Yang, X., Fu, T.-M., Zhao, Q., Fu, Q. (2020), ROS-generation potential of Humic-like substances (HULIS) in ambient PM2.5 in urban Shanghai: Association with HULIS concentration and light absorbance, Chemosphere, 256, 127050, doi: 10.1016/j.chemosphere.2020.127050. Full text
  25. Zhang, R., Zhang, Y., Lin, H., Feng, X., Fu, T.-M., Wang, Y. (2020), NOx emission reduction and recovery during COVID-19 in East China, Atmosphere, 11(4), 433, doi:10.3390/atmos11040433. Full text
  26. Jiang, Z., Jolleys, M. D., Fu, T.-M.*, Palmer, P. I.*, Ma, Y., Tian, H., Li, J., Yang, X. (2020), Spatiotemporal and probability variations of surface PM2.5 over China between 2013 and 2019 and the associated changes in health risks: an integrative observation and model analyses, Science of the Total Environment, 723, doi:10.1016/j.scitotenv.2020.137896. Full text
  27. Zhang, L., Fu, T.-M.*, Tian, H., Ma, Y., Chen, J.-P., Tsai, T.-C., Tsai, I.-C., Meng, Z., Yang, X. (2020), Anthropogenic aerosols significantly reduce mesoscale convective system occurrences and precipitation over Southern China in April, Geophys. Res. Lett., doi: 10.1029/2019GL086204. Full text
  28. Zhang*, Y., Vu, T. V., Sun, J., He, J., Shen, X., Lin, W., Zhang, X., Zhong, J., Gao, W., Wang, Y., Fu, T.-M., 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, doi:10.1021/acs.est.9b04678. Full text
  29. Zhao, Y.-H., Zhang, L.*, Zhou, M., Chen, D., Lu, X., Tao, W., Liu, J.-F., Tian, H., Ma, Y.-P., Fu, T.-M.(2019), Influences of planetary boundary layer mixing parameterization on summertime surface ozone concentration and dry deposition over North China, Atmospheric Environment, 218, 116950, doi:10.1016/j.atmosenv.2019.116950. Full text
  30. Lu, X.*, Zhang, L.*, Chen, Y., Zhou, M., Zheng, B., Li, K., Liu, Y., Lin, J., Fu, T.-M., and Zhang, Q. (2019), Exploring 2016–2017 surface ozone pollution over China: source contributions and meteorological influences, Atmos. Chem. Phys., 19, 8339–8361, doi:10.5194/acp-19-8339-2019. Full text
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  32. Shen, L.*, D. J. Jacob, L. Zhu, Q. Zhang, B. Zheng, M. P. Sulprizio, K. Li, I. De Smedt, G. González Abad, H. Cao, T.-M. Fu, and H. Liao (2019), The 2005–2016 trends of formaldehyde columns over China observed by satellites: Increasing anthropogenic emissions of volatile organic compounds and decreasing agricultural fire emissions, Geophysical Research Letters, 46. doi:10.1029/2019GL082172 Full text.
  33. Feng, X., T.-M. Fu*, H. Cao, H. Tian, Q. Fan, X. Chen (2019), Neural network prediction of pollutant emissions from open burning of crop residues: application to air quality forecasts in Southern China, Atmospheric Environment, 204, 22-31, doi:10.1016/j.atmosenv.2019.02.002 Full text
  34. Zhou, M., L. Zhang*, D. Chen*, Y. Gu, T.-M. Fu, M. Gao, Y. Zhao, X. Lu, and B. Zhao (2018), The impact of aerosol-radiation interactions on the effectiveness of emission control measures, Environmental Research Letters, 14(2), 024002, doi:10.1088/1748-9326/aaf27d Full text
  35. Cao, H., T.-M. Fu*, L. Zhang, D. K. Henze, C. Chan Miller, C. Lerot, G. Gonzalex Abad, I. De Smedt, Q. Zhang, M. van Roosendael, K. Chance, J. Li, J. Zheng, and Y. Zhao (2018), Adjoint inversion of Chinese non-methane volatile organic compound emissions using space-based observations of formaldehyde and glyoxal, Atmospheric Chemistry and Physics, 18, 15017-15046, doi:10.5194/acp-18-15017-2018. Full text
  36. Xing, L., M. Shrivastava*, T.-M. Fu*, P. Roldin, Y. Qian, L. Xu, N. L. Ng, J. Shilling, A. Zelenyuk, and C. Cappa (2018), Parameterized yields of semi-volatile products from isoprene oxidation under different NOx levels:impacts of chemical aging and wall-loss of reactive gases, Environmental Science and Technology, doi: 10.1021/acs.est.8b00373. Full text SI
  37. Liu, M.-Y., Lin, J.-T.*, Wang, Y.-C., Sun, Y., Zheng, B., Shao, J., Chen, L.-L., Zheng, Y., Chen, J., Fu, T.-M., Yan, Y.-Y., Zhang, Q., and Wu, Z. (2018),Spatiotemporal variability of NO2 and PM2.5 over Eastern China: observational and model analyses with a novel statistical method, Atmospheric Chemistry and Physics, 18, 12933-12952, doi:10.5194/acp-18-12933-2018.Full text
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  41. Tsai, I.C., J.-P. Chen*, C. S.-C. Lung, N. Li, W.-N. Chen, T.-M. Fu, C.-C. Chang, and G.-D. Hwang (2015), Sources and formation pathways of organic aerosol in a subtropical metropolis during summer, Atmospheric Environment, 117, 51-60, doi:10.1016/j.atmosenv.2015.07.005. Full text
  42. Fu, T.-M.*, Y. Zheng, F. Paulot, J. Mao, and R. M. Yantosca (2015), Positive but variable sensitivity of August surface ozone to large-scale warming in the southeast United States, Nature Climate Change, 5, 454-458, doi:10.1038/nclimate2567. Full text
  43. Zhang, L.*, L. Liu, Y. Zhao, S. Gong, X. Zhang, D. K. Henze, S. L. Capps, T.-M. Fu, and Q. Zhang (2015), Source Attribution of Particulate Matter Pollution over North China with the Adjoint Method, Environmental Research Letters, 10, 084011, doi:10.1088/1748-9326/10/8/084011.Full text
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  45. Jian, Y., and T.-M. Fu* (2014), Injection heights of springtime biomass burning plumes over the Peninsular Southeast Asia and their impacts on pollutant long-range transport, Atmos. Chem. Phys., 14, 3977-3989, doi:10.5194/acp-14-3977-2014. Full text
  46. Zhang, Y., L. Qiao, Y. Ren, X. Wang, M. Gao, Y. Tang, J. J. Xi, T.-M. Fu*, and X. Jiang* (2013), Two dimensional barcode-inspired automatic analysis for arrayed microfluidic immunoassays, Biomicrofluidics, 7, 034110, doi:10.1063/1.4811278. PDF
  47. Li, N., T.-M. Fu*, J.J. Cao*, S.C. Lee, X.-F. Huang, L.-Y. He, K.-F. Ho, J. S. Fu, and Y.-F. Lam (2013), Sources of secondary organic aerosols in the Pearl River Delta region in fall: contributions from the aqueous reactive uptake of dicarbonyls, Atmos. Environ., 76, 200-207, doi:10.1016/j.atmosenv.2012.12.005. PDF
  48. Xing, L., T.-M. Fu*, J.J. Cao, S.C. Lee, G.H. Wang, K.-F. Ho, M.-C. Cheng, C.-F. You, and T.J. Wang (2013), Seasonal and spatial variability of the OM/OC mass ratios and high regional correlation between oxalic acid and zinc in Chinese urban organic aerosols, Atmos. Chem. Phys., 13, 4307-4318, doi:10.5194/acp-13-4307-2013. PDF
  49. He, C.L., and T.-M. Fu* (2012), Air-sea exchange of volatile organic compounds: a new model with microlayer effects, Atmospheric and Oceanic Science Letters, 6(2), 97-102. PDF
  50. Fu, T.-M.*, J.J. Cao, X.Y. Zhang, S.C. Lee, Q. Zhang, Y.M. Han, W.J. Qu, Z. Han, R. Zhang, Y.X. Wang, D. Chen, and D.K. Henze (2012), Carbonaceous aerosols in China: top-down constraints on primary sources and estimation of secondary contribution, Atmos. Chem. Phys., 12, 2725-2746, doi:10.5194/acp-12-2725-2012. PDF
  51. Heald, C.L.*, H. Coe, J.L. Jimenez, R.J. Weber, R. Bahreini, A.M. Middlebrook, L.M. Russell, M. Jolleys, T.-M. Fu, J.D. Allan, K.N. Bower, G. Capes, J. Crosier, W.T. Morgan, N. H. Robinson, P.I. Williams, M.J. Cubison, P.F. DeCarlo, and E.J. Dunlea (2011), Exploring the vertical profile of atmospheric organic aerosol: comparing 17 aircraft field campaigns with a global model, Atmos. Chem. Phys., 11, 12673-12696, doi:10.5194/acpd-11-12673-2011. PDF
  52. Pacifico, F.*, S.P. Harrison, C.D. Jones, A. Arneth, S. Sitch, G.P. Weedon, M.P. Barkley, P.I. Palmer, D. Seca, M. Potosnak, T.-M. Fu, A. Goldstein, J. Bai, and G. Schurgers (2011), Evaluation of a photosynthesis-based biogenic isoprene emission scheme in JULES and simulation of isoprene emissions under present-day climate conditions, Atmos. Chem. Phys., 11, 4371-4389, doi:10.5194/acp-11-4371-2011.PDF
  53. González Abad, G.*, N.D.C. Allen, P.F. Bernath, C.D. Boone, S.D. McLeod, G.L. Manney, G.C. Toon, C. Carouge, Y. Wang, S. Wu, M.P. Barkley, P.I. Palmer, Y. Xiao, and T.-M. Fu (2011), Ethane, ethyne and carbon monoxide concentrations in the upper troposphere and lower stratosphere from ACE and GEOS-Chem: a comparison study, Atmos. Chem. Phys., 11(18), 9927-9941, doi:10.5194/acp-11-9927-2011.PDF
  54. Zhang, Y.W., Z.L. Gu*, S.C. Lee, T.-M. Fu, and K.F. Ho (2011), Numerical simulation and in situ investigation of fine particle dispersion in an actual deep street canyon in Hong Kong, Indoor and Built Environ., 20, 2, 206-216, doi:10.1177/1420326X10387694.PDF
  55. Fu, T.-M.*, D. J. Jacob, and C. L. Heald (2009), Aqueous-phase reactive uptake of dicarbonyls as a source of organic aerosol over eastern North America , Atmos. Environ., 43(10), 1814-1822, doi:10.1016/j.atmosenv.2008.12.029. PDF
  56. Jacob, D.J., E.E. Drury, T.-M. Fu, E. Leibensperger, L. Mickley, A. Tai (2009), Aerosols over the United States: space observation, source characterization, and climate interactions, Geochimica et Cosmochimica Acta, 73(13), A579-A579.Link
  57. Guo, H.*, A.J. Ding, T. Wang, I.J. Simpson, D.R. Blake, B. Barletta, S. Meinardi, T.-M. Fu, Y.S. Li, and W.T. Hung (2009), Source origins, modeled profiles and apportionments of halogenated hydrocarbons in the greater Pearl River Delta region, southern China, J. Geophys. Res., doi:10.1029/2008JD011448.PDF
  58. Fu, T.-M.*, D. J. Jacob, F. Wittrock, J. P. Burrows, M. Vrekoussis, and D. K. Henze (2008), Global budgets of atmospheric glyoxal and methylglyoxal, and implications for formation of secondary organic aerosols, J. Geophys. Res., 113, D15303, doi:10.1026/2007JD009505. PDF
  59. Henze, D. K.*, J. H. Seinfeld, N. L. Ng, J. H. Kroll, T.-M. Fu, D. J. Jacob, and C. L. Heald (2008), Global modeling of secondary organic aerosol formation from aromatic hydrocarbons: high- vs. low-yield pathways, Atmos. Chem. Phys., 8, 2405-2401, doi:10.5194/acp-8-2405-2008. PDF
  60. Liu, C.-M.*, M.-T. Yeh, S. Paul, Y.-C. Lee, D.J. Jacob, T.-M. Fu, J.-H. Woo, G.R. Carmichael, and D.G. Streets (2008), Effect of anthropogenic emissions in East Asia on regional ozone levels during spring cold continental outbreaks near Taiwan: a case study, Environ. Model. Software, 23(5), 579-591, doi:10.1016/j.envsoft.2007.08.007.PDF
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  63. Wang, Y.X.*, M. B. McElroy, R. V. Martin, D. G. Streets, Q. Zhang, and T.-M. Fu (2007), Seasonal variability of NOx emissions over east China constrained by satellite observations: Implications for combustion and microbial sources, J. Geophys. Res., 112, D06301, doi:10.1029/2006JD007538. PDF
  64. Sauvage, B.*, R. V. Martin, A. van Donkelaar, X. Liu, K. Chance, L. Jaegle, P. I. Palmer, S. Wu, and T.-M. Fu (2007), Remote sensed and in situ constraints on processes affecting tropical tropospheric ozone, Atmos. Chem. Phys., 7, 815-838, doi:10.5194/acp-7-815-2007. PDF
  65. van Donkelaar, A.*, R. V. Martin, R. J. Park, C. L. Heald, T.-M. Fu, H. Liao, and A. Guenther (2007), "Model evidence for a significant source of secondary organic aerosol from isoprene", Atmos. Environ., 41, 1267-1274. PDF
  66. Palmer, P. I.*, D. S. Abbot, T.-M. Fu, D. J. Jacob, K. Chance, T. P. Kuruso, A. Guenther, C. Wiedinmyer, J. C. Stanton, M. J. Pilling, S. N. Pressley, B. Lamb, and A. L. Sumner (2006), Quantifying the seasonal and interannual variability of North American isoprene emissions using satellite observations of formaldehyde column, J. Geophys. Res., 111, D12315, doi:10.1029/2005JD006689. PDF
  67. Liu, X.*, K. Chance, C.E. Sioris, T.P. Kurosu, R,J.D. Spurr, R.V. Martin, T.-M. Fu, J.A. Logan, D.J. Jacob, P.I. Palmer, M.J. Newchurch, I.A. Megretskaia, and R. Chatfield (2006), First directly-retrieved global distribution of tropospheric column ozone from GOME: comparison with the GEOS-CHEM model, J. Geophys. Res., 111, D02308. PDF
  68. Jiang, X., Q. Xu, S. K. W. Dertinger, A. D. Stroock, T.-M. Fu, and G. M. Whitesides *(2005), A general method for patterning gradients of biomolecules on surfaces using microfluidic networks, Analytical Chemistry, 77(8), 2338 – 2347, doi:10.1021/ac048440m.PDF
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