We are interested in multiphase reactions in deliquesced aerosol particles.

Related papers:

R. Zhang, R. Minamikawa,# M. Gen,* Evidence on Interfacial Reaction Governing NO2 Hydrolysis in Deliquesced Aerosol Particles, Environmental Science & Technology,  2025, 59, 23, 11708–11719.

M. Gen,* H. Zheng, Y. Sun, W. Xu, N. Ma, H. Su, Y. Cheng, S. Wang, J. Xing, S. Zhang, L. Xue, C. Xue, Y. Mu, X. Tian, A. Matsuki, S. Song,* Rapid hydrolysis of NO2 at high ionic strengths of deliquesced aerosol particles, Environmental Science & Technology, 2024, 58, 18, 7904–7915.

M. Gen, Z. Liang, R. Zhang, B. R. G. Mabato, C. K. Chan*, Particulate nitrate photolysis in the atmosphere, Environmental Science: Atmospheres, 2022, 2, 111-127. (part of the themed collections: Environmental Science Atmospheres Recent Review Articles, Environmental Science: Atmospheres: Highlight China, Best Papers of 2022 from RSC’s Environmental Science journals, Best Papers 2022 – Environmental Science: Atmospheres, ES: Atmospheres Hot Papers and SDG13: Climate Action- chemistry of greenhouse gases, 2022)

M. Gen*, R. Zhang, C. K. Chan*, Nitrite/nitrous acid generation from the reaction of nitrate and Fe(II) promoted by photolysis of iron-organic complexes, Environmental Science & Technology, 2021, 55, 15715–15723.

M. Gen, R. Zhang, Y. J. Li, C. K. Chan, Multiphase Photochemistry of Iron-chloride Containing Particles as A Source of Aqueous Chlorine Radicals and Its Effect on Sulfate Production, Environmental Science & Technology, 2020, 54, 9862–9871.

M. Gen, R. Zhang, D. D. Huang, Y. J. Li, C. K. Chan, Heterogeneous SO2 Oxidation in Sulfate Formation by Photolysis of Particulate Nitrate, Environmental Science & Technology Letters, 2019, 6, 86–91. (Selected as The 2019 ES&T Letters Best Paper Award)