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Viscosity, glass formation, and mixing times within secondary organic aerosol from biomass burning phenolics
Kiland, K. J., Mahrt, F., Peng, L., Nikkho, S., Zaks, J., Crescenzo, G. V., & Bertram, A. K. (2023). Viscosity, glass formation, and mixing times within secondary organic aerosol from biomass burning phenolics. ACS Earth and Space Chemistry, 7(7), 1388-1400. https://doi.org/10.1021/acsearthspacechem.3c00039
The role of mineral dust aerosol particles in aviation soot-cirrus interactions
Kärcher, B., Marcolli, C., & Mahrt, F. (2023). The role of mineral dust aerosol particles in aviation soot-cirrus interactions. Journal of Geophysical Research D: Atmospheres, 128(3), e2022JD037881 (15 pp.). https://doi.org/10.1029/2022JD037881
Physicochemical properties of charcoal aerosols derived from biomass pyrolysis affect their ice-nucleating abilities at cirrus and mixed-phase cloud conditions
Mahrt, F., Rosch, C., Gao, K., Dreimol, C. H., Zawadowicz, M. A., & Kanji, Z. A. (2023). Physicochemical properties of charcoal aerosols derived from biomass pyrolysis affect their ice-nucleating abilities at cirrus and mixed-phase cloud conditions. Atmospheric Chemistry and Physics, 23(2), 1285-1308. https://doi.org/10.5194/acp-23-1285-2023
Sunlight can convert atmospheric aerosols into a glassy solid state and modify their environmental impacts
Baboomian, V. J., Crescenzo, G. V., Huang, Y., Mahrt, F., Shiraiwa, M., Bertram, A. K., & Nizkorodov, S. A. (2022). Sunlight can convert atmospheric aerosols into a glassy solid state and modify their environmental impacts. Proceedings of the National Academy of Sciences of the United States of America PNAS, 119(43), e2208121119 (10 pp.). https://doi.org/10.1073/pnas.2208121119
Not all types of secondary organic aerosol mix: two phases observed when mixing different secondary organic aerosol types
Mahrt, F., Peng, L., Zaks, J., Huang, Y., Ohno, P. E., Smith, N. R., … Bertram, A. K. (2022). Not all types of secondary organic aerosol mix: two phases observed when mixing different secondary organic aerosol types. Atmospheric Chemistry and Physics, 22(20), 13783-13796. https://doi.org/10.5194/acp-22-13783-2022
Phase behavior of internal mixtures of hydrocarbon-like primary organic aerosol and secondary aerosol based on their differences in oxygen-to-carbon ratios
Mahrt, F., Huang, Y., Zaks, J., Devi, A., Peng, L., Ohno, P. E., … Bertram, A. K. (2022). Phase behavior of internal mixtures of hydrocarbon-like primary organic aerosol and secondary aerosol based on their differences in oxygen-to-carbon ratios. Environmental Science and Technology, 56(7), 3960-3973. https://doi.org/10.1021/acs.est.1c07691
Possible effects of ozone chemistry on the phase behavior of skin oil and cooking oil films and particles indoors
Xu, S., Mahrt, F., Gregson, F. K. A., & Bertram, A. K. (2022). Possible effects of ozone chemistry on the phase behavior of skin oil and cooking oil films and particles indoors. ACS Earth and Space Chemistry, 6(7), 1836-1845. https://doi.org/10.1021/acsearthspacechem.2c00092
Heterogeneous nucleation drives particle size segregation in sequential ozone and nitrate radical oxidation of catechol
Garofalo, L. A., He, Y., Jathar, S. H., Pierce, J. R., Fredrickson, C. D., Palm, B. B., … Farmer, D. K. (2021). Heterogeneous nucleation drives particle size segregation in sequential ozone and nitrate radical oxidation of catechol. Environmental Science and Technology, 55(23), 15637-15645. https://doi.org/10.1021/acs.est.1c02984
Process-oriented analysis of aircraft soot-cirrus interactions constrains the climate impact of aviation
Kärcher, B., Mahrt, F., & Marcolli, C. (2021). Process-oriented analysis of aircraft soot-cirrus interactions constrains the climate impact of aviation. Communications Earth & Environment, 2(1), 113 (9 pp.). https://doi.org/10.1038/s43247-021-00175-x
Phase behavior of hydrocarbon-like primary organic aerosol and secondary organic aerosol proxies based on their elemental oxygen-to-carbon ratio
Mahrt, F., Newman, E., Huang, Y., Ammann, M., & Bertram, A. K. (2021). Phase behavior of hydrocarbon-like primary organic aerosol and secondary organic aerosol proxies based on their elemental oxygen-to-carbon ratio. Environmental Science and Technology, 55(18), 12202-12214. https://doi.org/10.1021/acs.est.1c02697
Soot PCF: pore condensation and freezing framework for soot aggregates
Marcolli, C., Mahrt, F., & Kärcher, B. (2021). Soot PCF: pore condensation and freezing framework for soot aggregates. Atmospheric Chemistry and Physics, 21(10), 7791-7843. https://doi.org/10.5194/acp-21-7791-2021