- Jiang Binfan, Xia Dehong. Ammonia control represents the key for PM2.5 elimination: insights for global air pollution control interconnected from PM2.5 events in China. Clean Technology Environmental Policy, 2020. (SCI).
- Jiang Binfan, Wen Yu, Li Zhiyong, Liu Xiangjun, Xia Dehong, Theoretical Analysis on the Removal of Cyclic Volatile Organic Compounds by Non-thermal Plasma. Water Air & Soil Pollution, 2018, 229(2):35. (SCI).
- Jiang Binfan, Xie Yulei, Xia Dehong. Effect of the molecular structure of volatile organic compounds on atmospheric nucleation: A modeling study based on gas kinetic theory and graph theory, Atmospheric Environment, 2019, 213: 215-222. (SCI Top, IF: 4.459).
- Jiang Binfan, Xia Dehong. Role identification of NH3 in atmospheric secondary new particle formation in haze occurrence of China. Atmospheric Environment, 2017, 163:107-117. (SCI Top, IF: 4.459).
- Xia Dehong, Jiang Binfan, et al., Modeling and analysis of PM 2.5, generation for key factors identification in China. Atmospheric Environment, 2016, 134:208-216. (SCI Top, IF: 4.459).
- Jiang Binfan, Xia Dehong, et al., A multicomponent kinetic model established for investigation on atmospheric new particle formation mechanism in H2SO4-HNO3-NH3-VOC system. Science of the Total Environment, 2017, 616-617. (SCI Top, IF: 5.727).
- Jiang Binfan, Xie Yulei, Xia Dehong, A potential source for PM2.5: Analysis of fine particle generation mechanism in Wet Flue Gas Desulfurization System by modeling drying and breakage of slurry droplet. Environmental Pollution, 2019, 246: 249-256. (SCI Top, IF: 6.152).
- Jiang Binfan, Xia Dehong, et al., Theoretical heat conduction equation based on micro particle vibration fundamental. International Journal of Thermal Sciences, 2019, 140: 521-529. (SCI, IF: 3.623).
- Jiang Binfan, Xia Dehong, et al., Efficient waste heat recovery system for high-temperature solid particles based on heat transfer enhancement. Applied Thermal Engineering, 2019, 155: 166-174. (SCI一区Top, IF: 4.022).
- Jiang Binfan, Xia Dehong, Zhang Huili, et al. Effective waste heat recovery from industrial high-temperature granules: A moving bed indirect heat exchanger with embedded agitation. Energy, 2020,118346. (SCI一区Top, IF: 5.008).