Publications of Yafang Cheng

Journal Article (124)

1.
Journal Article
Tan, J., Su, H., Itahashi, S., Tao, W., Wang, S., Li, R., Fu, H., Huang, K., Fu, J. S. and Cheng, Y.: Quantifying the wet deposition of reactive nitrogen over China: Synthesis of observations and models, Science of the Total Environment, 851(1), doi:10.1016/j.scitotenv.2022.158007, 2022.
2.
Journal Article
Liang, M., Tao, J., Ma, N., Kuang, Y., Zhang, Y., Wu, S., Jiang, X., He, Y., Chen, C., Yang, W., Zhou, Y., Cheng, P., Xu, W., Hong, J., Wang, Q., Zhao, C., Zhou, G., Sun, Y., Zhang, Q., Su, H. and Cheng, Y.: Prediction of CCN spectra parameters in the North China Plain using a random forest model, Atmospheric Environment, 289, doi:10.1016/j.atmosenv.2022.119323, 2022.
3.
Journal Article
Guo, L., Su, H., Li, M., Kuhn, U., Zheng, G., Han, L., Bao, F., Pöschl, U. and Cheng, Y.: Reactive uptake coefficients for multiphase reactions determined by a dynamic chamber system, Atmospheric Measurement Techniques, 15(21), 6433–6446, doi:10.5194/amt-15-6433-2022, 2022.
4.
Journal Article
Zhou, M., Zheng, G., Wang, H., Qiao, L., Zhu, S., Huang, D., An, J., Lou, S., Tao, S., Wang, Q., Yan, R., Ma, Y., Chen, C., Cheng, Y., Su, H. and Huang, C.: Long-term trends and drivers of aerosol pH in eastern China, Atmospheric Chemistry and Physics, 22(20), 13833–13844, doi:10.5194/acp-22-13833-2022, 2022.
5.
Journal Article
Zhang, S., Li, G., Ma, N., He, Y., Zhu, S., Pan, X., Dong, W., Zhang, Y., Luo, Q., Ditas, J., Kuhn, U., Zhang, Y., Yuan, B., Wang, Z., Cheng, P., Hong, J., Tao, J., Xu, W., Kuang, Y., Wang, Q., Sun, Y., Zhou, G., Cheng, Y. and Su, H.: Exploring HONO formation and its role in driving secondary pollutants formation during winter in the North China Plain, Journal of Environmental Sciences, doi:10.1016/j.jes.2022.09.034, 2022.
6.
Journal Article
Yang, Z., Ma, N., Wang, Q., Li, G., Pan, X., Dong, W., Zhu, S., Zhang, S., Gao, W., He, Y., Xie, L., Zhang, Y., Kuhn, U., Xu, W., Kuang, Y., Tao, J., Hong, J., Zhou, G., Sun, Y., Su, H. and Cheng, Y.: Characteristics and source apportionment of black carbon aerosol in the North China Plain, Atmospheric Research, 276, doi:10.1016/j.atmosres.2022.106246, 2022.
7.
Journal Article
Li, M., Su, H., Zheng, G., Kuhn, U., Kim, N., Li, G., Ma, N., Pöschl, U. and Cheng, Y.: Aerosol pH and Ion Activities of HSO4- and SO42-in Supersaturated Single Droplets, Environmental Science & Technology, 56(18), 12863–12872, doi:10.1021/acs.est.2c01378, 2022.
8.
Journal Article
Wang, Q., Zhou, Y., Ma, N., Zhu, Y., Zhao, X., Zhu, S., Tao, J., Hong, J., Wu, W., Cheng, Y. and Su, H.: Review of Brown Carbon Aerosols in China: Pollution Level, Optical Properties, and Emissions, Journal of Geophysical Research: Atmospheres, 127(16), doi:10.1029/2021JD035473, 2022.
9.
Journal Article
Kratz, A. M., Maier, S., Weber, J., Kim, M., Mele, G., Gargiulo, L., Leifke, A. L., Prass, M., Abed, R. M. M., Cheng, Y., Su, H., Pöschl, U. and Weber, B.: Reactive Nitrogen Hotspots Related to Microscale Heterogeneity in Biological Soil Crusts, Environmental Science & Technology, 56(16), 11865–11877, doi:10.1021/acs.est.2c02207, 2022.
10.
Journal Article
Li, M., Li, J., Zhu, Y., Chen, J., Andreae, M. O., Pöschl, U., Su, H., Kulmala, M., Chen , C., Cheng, Y. and Zhao, J.: Highly oxygenated organic molecules with high unsaturation formed upon photochemical aging of soot, Chem, 8, doi:10.1016/j.chempr.2022.06.011, 2022.
11.
Journal Article
Wang, W., Parrish, D. D., Wang, S., Bao, F., Ni, R., Li, X., Yang, S., Wang, H., Cheng, Y. and Su, H.: Long-term trend of ozone pollution in China during 2014–2020: distinct seasonal and spatial characteristics and ozone sensitivity, Atmospheric Chemistry and Physics, 22(13), 8935–8949, doi:10.5194/acp-22-8935-2022, 2022.
12.
Journal Article
Rodriguez-Caballero, E., Stanelle, T., Egerer, S., Cheng, Y., Su, H., Canton, Y., Belnap, J., Andreae, M. O., Tegen, I., Reick, C. H., Pöschl, U. and Weber, B.: Global cycling and climate effects of aeolian dust controlled by biological soil crusts, Nature Geoscience, 15, doi:10.1038/s41561-022-00942-1, 2022.
13.
Journal Article
Sen, W., Tao, J., Ma, N., Kuang, Y., Zhang, Y., He, Y., Sun, Y., Xu, W., Hong, J., Xie, L., Wang, Q., Su, H. and Cheng, Y.: Particle number size distribution of PM1and PM10 in fogs and implications on fog droplet evolutions, Atmospheric Environment, 277, doi:10.1016/j.atmosenv.2022.119086, 2022.
14.
Journal Article
Zheng, G., Su, H. and Cheng, Y.: Revisiting the Key Driving Processes of the Decadal Trend of Aerosol Acidity in the U.S, ACS environmental Au: an open access journal of the American Chemical Society, 2, doi:10.1021/acsenvironau.1c00055, 2022.
15.
Journal Article
He, X., Yuan, B., Wu, C., Wang, S., Wang, C., Huangfu, Y., Qi, J., Ma, N., Xu, W., Wang, M., Chen, W., Su, H., Cheng, Y. and Shao, M.: Volatile organic compounds in wintertime North China Plain: Insights from measurements of proton transfer reaction time-of-flight mass spectrometer (PTR-ToF-MS), Journal of Environmental Sciences, 114, 98–114, doi:10.1016/j.jes.2021.08.010, 2022.
16.
Journal Article
Wang, W., Yuan, B., Peng, Y., Su, H., Cheng, Y., Yang, S., Wu, C., Qi, J., Bao, F., Huangfu, Y., Wang, C., Ye, C., Wang, Z., Wang, B., Wang, X., Song, W., Hu, W., Cheng, P., Zhu, M., Zheng, J. and Shao, M.: Direct observations indicate photodearadable oxygenated volatile organic compounds (OVOCs) as larger contributors to radicals and ozone production in the atmosphere, Atmospheric Chemistry and Physics, 22(6), 4117–4128, doi:10.5194/acp-22-4117-2022, 2022.
17.
Journal Article
Han, S., Hong, J., Luo, Q., Xu, H., Tan, H., Wang, Q., Tao, J., Zhou, Y., Peng, L., He, Y., Shi, J., Ma, N., Cheng, Y. and Su, H.: Hygroscopicity of organic compounds as a function of organic functionality, water solubility, molecular weight, and oxidation level, Atmospheric Chemistry and Physics, 22(6), 3985–4004, doi:10.5194/acp-22-3985-2022, 2022.
18.
Journal Article
Wang, H., Huang, C., Tao, W., Gao, Y., Wang, S., Jing, S., Wang, W., Yan, R., Wang, Q., An, J., Tian, J., Hu, Q., Lou, S., Pöschl, U., Cheng, Y. and Su, H.: Seasonality and reduced nitric oxide titration dominated ozone increase during COVID-19 lockdown in eastern China, npj Climate and Atmospheric Science, 5(1), doi:10.1038/s41612-022-00249-3, 2022.
19.
Journal Article
Yang, X., Wang, Q., Ma, N., Hu, W., Gao, Y., Huang, Z., Zheng, J., Yuan, B., Yang, N., Tao, J., Hong, J., Cheng, Y. and Su, H.: The impact of chlorine chemistry combined with heterogeneous N2O5 reactions on air quality in China, Atmospheric Chemistry and Physics, 22, 3743–3762, doi:10.5194/acp-22-3743-2022, 2022.
20.
Journal Article
Yue, S., Zhu, J., Chen, S., Xie, Q., Li, W., Li, L., Ren, H., Su, S., Li, P., Ma, H., Fan, Y., Cheng, B., Wu, L., Deng, J., Hu, W., Ren, L., Wei, L., Zhao, W., Tian, Y., Pan, X., Sun, Y., Wang, Z., Wu, F., Liu, C.-Q., Su, H., Penner, J. E., Pöschl, U., Andreae, M. O., Cheng, Y. and Fu, P.: Brown carbon from biomass burning imposes strong circum-Arctic warming, One Earth, 5(3), 293–304, doi:10.1016/j.oneear.2022.02.006, 2022.
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