(一)論文
1. Zhou, Y.Q., Ma, N., Wang, Q.Q., Wang, Z.B., Chen, C.R., Tao, J.C., Hong, J., Peng, L., He, Y., Xie, L.H., Zhu, S.W., Zhang, Y.X., Li, G., Xu, W.Y., Cheng, P., Kuhn, U., Zhou, G.S., Fu, P.Q., Zhang, Q., Su, H., Cheng, Y.F.: Bimodal distribution of size-resolved particle effective density: results from a short campaign in a rural environment over the North China Plain,Atmos. Chem. Phys., 22, 2029-2047, 2022.
2. Zhou, Y.Q., Wang, Q. Y., Zhang, X., Liu, S.X., Wang, Y.C., Wang, M., Tian, J., Zhu, C.S., Huang, R.J., Zhang, Q., Zhang, T., Zhou, J.M., Dai, W.T., Cao, J.J.: Exploring the impact of chemical composition on aerosol optical properties in a heavily polluted urban area of China, J. Environ. Manage., 247, 766-775, 2019.
3. Zhou, Y.Q., Wang, Q.Y., Huang, R.J., Liu, S.X., Tie, X.X., Su, X.L., Niu, X.Y., Zhao, Z.Z., Ni, H.Y., Wang, M., Zhang, Y.G., Cao, J.J.: Optical properties of aerosols and implications for radiative effects in Beijing during the Asia-Pacific Economic Cooperation (APEC) Summit 2014, J. Geophys. Res., 122(18), 10119-10132, 2017.
4. Liu, H.K., Wang, Q.Y., Qu, Y., Tian, J., Li, L., Ma, N., Zhou, Y.Q., Ran, W.K., Su, H. Han, Y.M., Pavese, G., Cao, J.J.: High contributions of fossil fuel sources to char-EC/soot-EC at a high-altitude site: Direct radiative effects and transport pathway, Fuel, 361: 130632, 2024.
5. Hong, J., Tang M., Wang, Q.Q., Ma, N., Zhu, S.W., Zhang, S.B., Pan, X.H., Xie L.H., Li, G., Kuhn, U., Yan, C., Tao, J.C., Kuang, Y., He, Y., Xu, W.Y., Cai, R.L., Zhou, Y.Q., Wang, Z.B., Zhou, G.S., Yuan, B., Cheng, Y.F., Su, H.: Measurement Report: Wintertime new particle formation in the rural area of the North China Plain - influencing factors and possible formation mechanism, Atmos. Chem. Phys., 23, 5699-5713,2023.
6. Tian, J., Wang, Q.Y., Ni, H.Y., Wang, M., Zhou, Y.Q., Han, Y.M., Shen, Z.X., Pongpiachan, S., Zhang, N.N., Zhao, Z.Z., Zhang, Q., Zhang, Y., Long, X., Cao, J.J.: Emission Characteristics of Primary Brown Carbon Absorption From Biomass and Coal Burning: Development of an Optical Emission Inventory for China, J. Geophys. Res., 124(3): 1879-1893, 2019.
7. Shi, J.N., Hong, J., Ma, N., Luo, Q.W., He, Y., Xu, H.B., Tan, H.B., Wang, Q.Q., Tao, J.C., Zhou, Y.Q., Han, S., Peng, L., Xie, L.H., Zhou, G.S., Xu, W.Y., Sun, Y.L., Cheng, Y.F., and Su, H.: Measurement report: On the difference in aerosol hygroscopicity between high and low relative humidity conditions in the North China Plain, Atmos. Chem. Phys., 22, 4599-4613, 2022.
8. Han, S., Hong, J., Luo, Q.W., Xu, H.B., Tan, H.B., Wang, Q.Q., Tao, J.C., Zhou, Y.Q., Peng, L., He, Y., Shi, J.N., Ma, N., Cheng, Y.F., and Su, H.: Hygroscopicity of organic compounds as a function of organic functionality, water solubility, molecular weight, and oxidation level, Atmos. Chem. Phys., 22, 3985-4004, 2022.
9. Liang, M.H., Tao, J.C., Ma, N., Kuang, Y., Zhang, Y.Y., Wu, S., Jiang, X.J., He, Y., Chen, C.R., Yang, W.D., Zhou, Y.Q., Cheng, P., Xu, W.Y., Hong, J., Wang, Q.Q., Zhao, C.S., Zhou, G.S., Sun, Y.L., Zhang, Q., Su, H., and Cheng, Y.F.: Prediction of CCN spectra parameters in the North China Plain using a random forest model, Atmos. Environ., 289(15), 119323, 2022.
10. Zhou, J.; Elser, M.; Huang, R.J.; Krapf, M.; Frohlich, R.; Bhattu, D.; Stefenelli, G.; Zotter, P.; Bruns, E.A.; Pieber, S.M.; Ni, H.Y.; Wang, Q.Y.; Wang, Y.C.; Zhou, Y.Q.; Chen, C.Y.; Xiao, M.; Slowik, J.G.; Brown, S.; Cassagnes, L.E.; Daellenbach, K.R.; Nussbaumer, T.; Geiser, M.; Prevot, A.S.H.; El-Haddad, I.; Cao, J.J.; Baltensperger, U.; Dommen, J.: Predominance of secondary organic aerosol to particle-bound reactive oxygen species activity in fine ambient aerosol, Atmos. Chem. Phys., 19, 14703-14720, 2019.
11. Wang, Q.Y., Liu, S.X., Li, N., Dai, W.T., Wu, Y.F., Tian, J., Zhou, Y.Q., Wang, M., Sai, S., Ho, H., Chen, Y., Zhang, R.J., Zhao, S.Y., Zhu, C.S., Han, Y.M., Tie, X.X., Cao, J.J.: Impacts of short-term mitigation measures on PM2.5 and radiative effects: a case study at a regional background site near Beijing, China, Atmos. Chem. Phys., 19, 1881-1899, 2019.
12. Niu, X.Y., Ho, S.S.H., Ho, K.F., Huang, Y., Sun, J., Wang, Q.Y., Zhou, Y.Q., Zhao, Z.Z., Cao, J.J.: Atmospheric levels and cytotoxicity of polycyclic aromatic hydrocarbons and oxygenated-PAHs in PM2.5 in the Beijing-Tianjin-Hebei region, Environ. Pollut., 231, 1075-1084, 2017.
13. Wang, Q. Y., Huang, R. J., Zhao, Z. Z., Cao, J. J., Ni, H. Y., Tie, X. X., Zhao, S. Y., Su, X. L., Han, Y. M., Shen, Z. X., Wang, Y. C., Zhang, N. N., Zhou, Y. Q., Corbin. J. C.: Physicochemical characteristics of the black carbon aerosol and its radiative impact in a polluted urban area of China. J. Geophys. Res., 121(20), 2016.
14. Zhang, N. N., Zhuang, M. Z., Tian, J., Tian, P. S., Zhang, J. R., Wang, Q. Y., Zhou, Y. Q., Huang, R. J., Zhu, C. S., Zhang, X. M., Cao, J.J.: Development of source profiles and their application in source apportionment of PM2.5 in Xiamen, China. Front. Env. Sci. Eng., 10(5), 2016.
15. Wang, Q. Y., Huang, R. J., Cao, J. J., Tie, X. X., Shen, Z. X., Zhao, S. Y., Han, Y. M., Li, G. H., Li, Z. Q., Ni, H. Y., Zhou, Y. Q., Wang, M., Chen, Y., Su, X. L.: Contribution of regional transport to the black carbon aerosol during winter haze period in Beijing. Atmos. Environ.,132, 11-18, 2016.
16. Wang, Q. Y., Huang, R. J., Cao, J. J., Tie, X. X., Ni, H. Y., Zhou, Y. Q., Han, Y. M., Hu, T. F., Zhu, C. S., Feng, T., Li, N., Li, J. D.: Black carbon aerosol in winter northeastern Qinghai-Tibetan Plateau, China: The source, mixing state and optical property. Atmos. Chem. Phys.,15(22), 13059-13069, 2015.
17. Wang, Q. Y., Liu, S. X., Zhou, Y. Q., Cao, J. J., Han, Y. M., Ni, H. Y., Zhang, N. N., Huang, R. J.: Characteristics of Black Carbon Aerosol during the Chinese Lunar Year and Weekdays in Xi’an, China. Atmosphere, 6(2), 195-208, 2015.
18. Xiao, S., Wang, Q. Y., Cao, J. J., Huang, R. J., Chen, W. D., Han, Y. M., Xu, H. M., Liu, S. X., Zhou, Y. Q., Wang, P., Zhang, J. Q., Zhan, C. L.: Long-term trends in visibility and impacts of aerosol composition on visibility impairment in Baoji, China. Atmos. Res.,149, 88-95, 2014.
19. Wang, Q. Y., Huang, R. J., Cao, J. J., Han, Y. M., Wang, G. H., Li, G. H., Wang, Y. C., Dai, W. T., Zhang, R. J., Zhou, Y. Q.: Mixing State of Black Carbon Aerosol in a Heavily Polluted Urban Area of China: Implications for Light Absorption Enhancement. Aerosol. Sci. Tech., 48(7), 689-697, 2014.
大氣氣溶膠物理特性,包括顆粒物相态變化、有效密度等
1.典型有機-無機耦合體系中液液相分離對顆粒物吸濕特性的影響,國家自然科學基金青年科學基金(4210050275),主持,2022.01 - 2024.12
2.華南地區雲霧過程中黑碳混合狀态及其濕清除的影響研究,廣州市基礎研究計劃基礎與應用基礎研究專題項目(2024A04J3959),主持,2024.01 - 2025.12
3. 大氣氣溶膠中無機-有機耦合體系液液相分離對其吸濕特性的影響,黃土與第四紀地質國家重點實驗室開放基金(SKLLQG2029),主持,2020.12-2022.12。
4.西安大氣細顆粒物中活性氧(Reactive oxygen Species)的特征、來源及影響因素,黃土與第四紀地質國家重點實驗室開放基金(SKLLQG1727),主持,2017.10-2018.10
5.“關中地區大氣重污染的加強觀測與成因研究”中課題一“關中城市群空氣質量多參數立體觀測”,中國科學院重點部署項目,參與,2017.07-2019.12
(一)論文
1. Zhou, Y.Q., Ma, N., Wang, Q.Q., Wang, Z.B., Chen, C.R., Tao, J.C., Hong, J., Peng, L., He, Y., Xie, L.H., Zhu, S.W., Zhang, Y.X., Li, G., Xu, W.Y., Cheng, P., Kuhn, U., Zhou, G.S., Fu, P.Q., Zhang, Q., Su, H., Cheng, Y.F.: Bimodal distribution of size-resolved particle effective density: results from a short campaign in a rural environment over the North China Plain,Atmos. Chem. Phys., 22, 2029-2047, 2022.
2. Zhou, Y.Q., Wang, Q. Y., Zhang, X., Liu, S.X., Wang, Y.C., Wang, M., Tian, J., Zhu, C.S., Huang, R.J., Zhang, Q., Zhang, T., Zhou, J.M., Dai, W.T., Cao, J.J.: Exploring the impact of chemical composition on aerosol optical properties in a heavily polluted urban area of China, J. Environ. Manage., 247, 766-775, 2019.
3. Zhou, Y.Q., Wang, Q.Y., Huang, R.J., Liu, S.X., Tie, X.X., Su, X.L., Niu, X.Y., Zhao, Z.Z., Ni, H.Y., Wang, M., Zhang, Y.G., Cao, J.J.: Optical properties of aerosols and implications for radiative effects in Beijing during the Asia-Pacific Economic Cooperation (APEC) Summit 2014, J. Geophys. Res., 122(18), 10119-10132, 2017.
4. Liu, H.K., Wang, Q.Y., Qu, Y., Tian, J., Li, L., Ma, N., Zhou, Y.Q., Ran, W.K., Su, H. Han, Y.M., Pavese, G., Cao, J.J.: High contributions of fossil fuel sources to char-EC/soot-EC at a high-altitude site: Direct radiative effects and transport pathway, Fuel, 361: 130632, 2024.
5. Hong, J., Tang M., Wang, Q.Q., Ma, N., Zhu, S.W., Zhang, S.B., Pan, X.H., Xie L.H., Li, G., Kuhn, U., Yan, C., Tao, J.C., Kuang, Y., He, Y., Xu, W.Y., Cai, R.L., Zhou, Y.Q., Wang, Z.B., Zhou, G.S., Yuan, B., Cheng, Y.F., Su, H.: Measurement Report: Wintertime new particle formation in the rural area of the North China Plain - influencing factors and possible formation mechanism, Atmos. Chem. Phys., 23, 5699-5713,2023.
6. Tian, J., Wang, Q.Y., Ni, H.Y., Wang, M., Zhou, Y.Q., Han, Y.M., Shen, Z.X., Pongpiachan, S., Zhang, N.N., Zhao, Z.Z., Zhang, Q., Zhang, Y., Long, X., Cao, J.J.: Emission Characteristics of Primary Brown Carbon Absorption From Biomass and Coal Burning: Development of an Optical Emission Inventory for China, J. Geophys. Res., 124(3): 1879-1893, 2019.
7. Shi, J.N., Hong, J., Ma, N., Luo, Q.W., He, Y., Xu, H.B., Tan, H.B., Wang, Q.Q., Tao, J.C., Zhou, Y.Q., Han, S., Peng, L., Xie, L.H., Zhou, G.S., Xu, W.Y., Sun, Y.L., Cheng, Y.F., and Su, H.: Measurement report: On the difference in aerosol hygroscopicity between high and low relative humidity conditions in the North China Plain, Atmos. Chem. Phys., 22, 4599-4613, 2022.
8. Han, S., Hong, J., Luo, Q.W., Xu, H.B., Tan, H.B., Wang, Q.Q., Tao, J.C., Zhou, Y.Q., Peng, L., He, Y., Shi, J.N., Ma, N., Cheng, Y.F., and Su, H.: Hygroscopicity of organic compounds as a function of organic functionality, water solubility, molecular weight, and oxidation level, Atmos. Chem. Phys., 22, 3985-4004, 2022.
9. Liang, M.H., Tao, J.C., Ma, N., Kuang, Y., Zhang, Y.Y., Wu, S., Jiang, X.J., He, Y., Chen, C.R., Yang, W.D., Zhou, Y.Q., Cheng, P., Xu, W.Y., Hong, J., Wang, Q.Q., Zhao, C.S., Zhou, G.S., Sun, Y.L., Zhang, Q., Su, H., and Cheng, Y.F.: Prediction of CCN spectra parameters in the North China Plain using a random forest model, Atmos. Environ., 289(15), 119323, 2022.
10. Zhou, J.; Elser, M.; Huang, R.J.; Krapf, M.; Frohlich, R.; Bhattu, D.; Stefenelli, G.; Zotter, P.; Bruns, E.A.; Pieber, S.M.; Ni, H.Y.; Wang, Q.Y.; Wang, Y.C.; Zhou, Y.Q.; Chen, C.Y.; Xiao, M.; Slowik, J.G.; Brown, S.; Cassagnes, L.E.; Daellenbach, K.R.; Nussbaumer, T.; Geiser, M.; Prevot, A.S.H.; El-Haddad, I.; Cao, J.J.; Baltensperger, U.; Dommen, J.: Predominance of secondary organic aerosol to particle-bound reactive oxygen species activity in fine ambient aerosol, Atmos. Chem. Phys., 19, 14703-14720, 2019.
11. Wang, Q.Y., Liu, S.X., Li, N., Dai, W.T., Wu, Y.F., Tian, J., Zhou, Y.Q., Wang, M., Sai, S., Ho, H., Chen, Y., Zhang, R.J., Zhao, S.Y., Zhu, C.S., Han, Y.M., Tie, X.X., Cao, J.J.: Impacts of short-term mitigation measures on PM2.5 and radiative effects: a case study at a regional background site near Beijing, China, Atmos. Chem. Phys., 19, 1881-1899, 2019.
12. Niu, X.Y., Ho, S.S.H., Ho, K.F., Huang, Y., Sun, J., Wang, Q.Y., Zhou, Y.Q., Zhao, Z.Z., Cao, J.J.: Atmospheric levels and cytotoxicity of polycyclic aromatic hydrocarbons and oxygenated-PAHs in PM2.5 in the Beijing-Tianjin-Hebei region, Environ. Pollut., 231, 1075-1084, 2017.
13. Wang, Q. Y., Huang, R. J., Zhao, Z. Z., Cao, J. J., Ni, H. Y., Tie, X. X., Zhao, S. Y., Su, X. L., Han, Y. M., Shen, Z. X., Wang, Y. C., Zhang, N. N., Zhou, Y. Q., Corbin. J. C.: Physicochemical characteristics of the black carbon aerosol and its radiative impact in a polluted urban area of China. J. Geophys. Res., 121(20), 2016.
14. Zhang, N. N., Zhuang, M. Z., Tian, J., Tian, P. S., Zhang, J. R., Wang, Q. Y., Zhou, Y. Q., Huang, R. J., Zhu, C. S., Zhang, X. M., Cao, J.J.: Development of source profiles and their application in source apportionment of PM2.5 in Xiamen, China. Front. Env. Sci. Eng., 10(5), 2016.
15. Wang, Q. Y., Huang, R. J., Cao, J. J., Tie, X. X., Shen, Z. X., Zhao, S. Y., Han, Y. M., Li, G. H., Li, Z. Q., Ni, H. Y., Zhou, Y. Q., Wang, M., Chen, Y., Su, X. L.: Contribution of regional transport to the black carbon aerosol during winter haze period in Beijing. Atmos. Environ.,132, 11-18, 2016.
16. Wang, Q. Y., Huang, R. J., Cao, J. J., Tie, X. X., Ni, H. Y., Zhou, Y. Q., Han, Y. M., Hu, T. F., Zhu, C. S., Feng, T., Li, N., Li, J. D.: Black carbon aerosol in winter northeastern Qinghai-Tibetan Plateau, China: The source, mixing state and optical property. Atmos. Chem. Phys.,15(22), 13059-13069, 2015.
17. Wang, Q. Y., Liu, S. X., Zhou, Y. Q., Cao, J. J., Han, Y. M., Ni, H. Y., Zhang, N. N., Huang, R. J.: Characteristics of Black Carbon Aerosol during the Chinese Lunar Year and Weekdays in Xi’an, China. Atmosphere, 6(2), 195-208, 2015.
18. Xiao, S., Wang, Q. Y., Cao, J. J., Huang, R. J., Chen, W. D., Han, Y. M., Xu, H. M., Liu, S. X., Zhou, Y. Q., Wang, P., Zhang, J. Q., Zhan, C. L.: Long-term trends in visibility and impacts of aerosol composition on visibility impairment in Baoji, China. Atmos. Res.,149, 88-95, 2014.
19. Wang, Q. Y., Huang, R. J., Cao, J. J., Han, Y. M., Wang, G. H., Li, G. H., Wang, Y. C., Dai, W. T., Zhang, R. J., Zhou, Y. Q.: Mixing State of Black Carbon Aerosol in a Heavily Polluted Urban Area of China: Implications for Light Absorption Enhancement. Aerosol. Sci. Tech., 48(7), 689-697, 2014.
研究生課程:《大氣氣溶膠》《大氣氣溶膠基礎》《大氣顆粒物理論與應用》
氣溶膠物理化學研究團隊,主要負責/熟悉儀器包括氣溶膠光鑷(Aerosol optical tweezer,AOT)、可調諧紅外雙激光直接吸收光譜儀(Tunable Infrared Laser Differential Absorption Spectrometer,TILDAS)、單顆粒黑碳光度計(Single Particle Soot Photometer,SP2)、離心式顆粒物質量篩分儀(Centrifugal Particle Mass Analyzer,CPMA)等。
