1. Xinxin Feng, Xun Qi et al., Emission characteristics and formation mechanisms of ammonia and amines during residential solid fuel combustion at varying temperatures. Environmental Pollution, 2025. (SCI, IF=7.3, 中科院大类二区,一作).
2. Xinxin Feng, Yingjun Chen et al., 15N fractionation of nitrate formation constrained by dual oxygen isotopes provides insight into its source identification in urban haze. Journal of Geophysical Research: Atmospheres, 2025, 130, e2024JD041755. (SCI, IF=3.8, 中科院大类二区top, 自然指数期刊, 唯一一作).
3. Xinxin Feng , Yingjun Chen* et al., Dominant role of NO2 oxidation in SO2 conversion to sulfate revealed by synchronous measurements of gas and particle sulfur isotopes in haze episodes. ACS EST&Air, 2025, 4, 498-507. (新期刊未分区,唯一一作).
4. Xinxin Feng, Yingjun Chen et al., Combination of Multiple isotopes and PMF model provide insights into the method optimization of PM2.5 source apportionment during haze episodes. Journal of Geophysical Research: Atmospheres, 2024, 129. e2024JD041350. (SCI, IF=3.8, 中科院大类二区top, 自然指数期刊, 唯一一作).
5. Xinxin Feng, Yingjun Chen et al., Dominant contribution of NO3 radical to NO3- formation during heavy haze episodes: insights from high-time resolution of dual isotopes Δ17O and δ18O. Environmental Science & Technology, 2023, 57, 20726-20735. (SCI, IF=10.9, 中科院大类一区top,自然指数期刊,唯一一作) .
6. Xinxin Feng, Yingjun Chen et al., Biomass burning is a non-negligible source for ammonium during water haze episodes in rural North China: Evidence from high time resolution 15N-stable isotope. Journal of Geophysical Research: Atmospheres, 2023, 128, e2022JD038012. (SCI, IF=3.8, 中科院大类二区top, 自然指数期刊, 唯一一作).
7. Xinxin Feng, Yingjun Chen et al., Exploring the influence of 34S fractionation from emission sources and SO2 atmospheric oxidation on sulfate source apportionment based on hourly resolution δ34S-SO2/SO42-. Journal of Geophysical Research: Atmospheres, 2023, 128, e2023JD038595. (SCI, IF=3.8, 中科院大类二区top, 自然指数期刊, 唯一一作).
8. Xinxin Feng, Cancan Wang et al., Outbreaks of ethyl-amines during haze episodes in North China Plain: a potential source of amines from ethanol gasoline vehicle emission. Environmental Science & Technology Letters, 2022, 9, 4306-4311. (SCI, IF=8.9, 中科院大类二区,唯一一作).
9. Xinxin Feng, Yanli Feng*, Yingjun Chen*, Junjie Cai, Qing Li, Jianmin Chen. Source apportionment of PM2.5 during haze episodes in Shanghai by the PMF model with PAHs. Journal of Cleaner Production, 2022, 330, 129850. (SCI, IF=9.8, 中科院大类一区top,唯一一作).
10. Xinxin Feng, Jinhu Zhao et al., Chemical Characterization, sources, and SOA production of intermediate volatile organic compounds during haze episodes in North China. Atmosphere, 2021, 12, 1484. (SCI, IF=2.5, 中科院大类四区,唯一一作).
11. Yanjie Lu#, Xinxin Feng#, Yanli Feng, Minjun Jiang, Yu Peng, Tian Chen, Yingjun Chen, Carbonyl compounds from typical combustion sources: emission characteristics, influencing factors, and their contribution to ozone formation. Atmospheric Chemistry and Physics, 2025, 131, 8043-8095 (中科院大类一区,共同一作排二).
12. Shaofeng Chen#, Xinixn Feng#, Yu Peng, Yingjun Chen, Evolution of three pairs of PAH with different molecular weights and aging products OPAH: Insights from OPAH/PAH high-time resolution hazes. Atmospheric Environment, 2025, 356, 121294. (中科院大类二区,共同一作排二).
13.Yu Peng#, Xinxin Feng#, Yanli Feng, Li Li, Yingjun Chen, Jianzhen Yu, Optimization of two-stage thermal desorption combined with pentafluorophenyl hydrazine derivatization-gas chromatography/mass spectrometry analytical method of atmospheric carbonyl compounds. Microchemical Journal, 2024, 197, 109794.(SCI, IF=4.9, 中科院大类二区,共同一作排二).
14. 祁珣,冯鑫鑫*,陈颖军*,轻型汽油卡车尾气颗粒物中氨和有机胺的排放特征及影响因素,生态环境学报, 2025, 34. (中文核心,共同通讯1/2).