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Measurement of ammonia, amines and iodine compounds using protonated water cluster chemical ionization mass spectrometry
Pfeifer, J., Simon, M., Heinritzi, M., Piel, F., Weitz, L., Wang, D., … Kürten, A. (2020). Measurement of ammonia, amines and iodine compounds using protonated water cluster chemical ionization mass spectrometry. Atmospheric Measurement Techniques, 13(5), 2501-2522. https://doi.org/10.5194/amt-13-2501-2020
Formation of highly oxygenated organic molecules from α-pinene ozonolysis: chemical characteristics, mechanism, and kinetic model development
Molteni, U., Simon, M., Heinritzi, M., Hoyle, C. R., Bernhammer, A. K., Bianchi, F., … Dommen, J. (2019). Formation of highly oxygenated organic molecules from α-pinene ozonolysis: chemical characteristics, mechanism, and kinetic model development. ACS Earth and Space Chemistry, 3(5), 873-883. https://doi.org/10.1021/acsearthspacechem.9b00035
Influence of temperature on the molecular composition of ions and charged clusters during pure biogenic nucleation
Frege, C., Ortega, I. K., Rissanen, M. P., Praplan, A. P., Steiner, G., Heinritzi, M., … Baltensperger, U. (2018). Influence of temperature on the molecular composition of ions and charged clusters during pure biogenic nucleation. Atmospheric Chemistry and Physics, 18(1), 65-79. https://doi.org/10.5194/acp-18-65-2018
Measurement-model comparison of stabilized Criegee intermediate and highly oxygenated molecule production in the CLOUD chamber
Sarnela, N., Jokinen, T., Duplissy, J., Yan, C., Nieminen, T., Ehn, M., … Sipilä, M. (2018). Measurement-model comparison of stabilized Criegee intermediate and highly oxygenated molecule production in the CLOUD chamber. Atmospheric Chemistry and Physics, 18(4), 2363-2380. https://doi.org/10.5194/acp-18-2363-2018
Rapid growth of organic aerosol nanoparticles over a wide tropospheric temperature range
Stolzenburg, D., Fischer, L., Vogel, A. L., Heinritzi, M., Schervish, M., Simon, M., … Winkler, P. M. (2018). Rapid growth of organic aerosol nanoparticles over a wide tropospheric temperature range. Proceedings of the National Academy of Sciences of the United States of America PNAS, 115(37), 9122-9127. https://doi.org/10.1073/pnas.1807604115
Size-resolved online chemical analysis of nanoaerosol particles: a thermal desorption differential mobility analyzer coupled to a chemical ionization time-of-flight mass spectrometer
Wagner, A. C., Bergen, A., Brilke, S., Fuchs, C., Ernst, M., Hoker, J., … Kürten, A. (2018). Size-resolved online chemical analysis of nanoaerosol particles: a thermal desorption differential mobility analyzer coupled to a chemical ionization time-of-flight mass spectrometer. Atmospheric Measurement Techniques, 11(10), 5489-5506. https://doi.org/10.5194/amt-11-5489-2018
Temperature uniformity in the CERN CLOUD chamber
Dias, A., Ehrhart, S., Vogel, A., Williamson, C., Almeida, J., Kirkby, J., … Onnela, A. (2017). Temperature uniformity in the CERN CLOUD chamber. Atmospheric Measurement Techniques, 10(12), 5075-5088. https://doi.org/10.5194/amt-10-5075-2017
Causes and importance of new particle formation in the present-day and preindustrial atmospheres
Gordon, H., Kirkby, J., Baltensperger, U., Bianchi, F., Breitenlechner, M., Curtius, J., … Carslaw, K. S. (2017). Causes and importance of new particle formation in the present-day and preindustrial atmospheres. Journal of Geophysical Research D: Atmospheres, 122(16), 8739-8760. https://doi.org/10.1002/2017JD026844
Intercomparison study and optical asphericity measurements of small ice particles in the CERN CLOUD experiment
Nichman, L., Järvinen, E., Dorsey, J., Connolly, P., Duplissy, J., Fuchs, C., … Gallagher, M. (2017). Intercomparison study and optical asphericity measurements of small ice particles in the CERN CLOUD experiment. Atmospheric Measurement Techniques, 10(9), 3231-3248. https://doi.org/10.5194/amt-10-3231-2017
The role of ions in new particle formation in the CLOUD chamber
Wagner, R., Yan, C., Lehtipalo, K., Duplissy, J., Nieminen, T., Kangasluoma, J., … Kulmala, M. (2017). The role of ions in new particle formation in the CLOUD chamber. Atmospheric Chemistry and Physics, 17(24), 15181-15197. https://doi.org/10.5194/acp-17-15181-2017
New particle formation in the free troposphere: a question of chemistry and timing
Bianchi, F., Tröstl, J., Junninen, H., Frege, C., Henne, S., Hoyle, C. R., … Baltensperger, U. (2016). New particle formation in the free troposphere: a question of chemistry and timing. Science, 352(6289), 1109-1112. https://doi.org/10.1126/science.aad5456
Effect of ions on sulfuric acid-water binary particle formation: 2. experimental data and comparison with QC-normalized classical nucleation theory
Duplissy, J., Merikanto, J., Franchin, A., Tsagkogeorgas, G., Kangasluoma, J., Wimmer, D., … Kulmala, M. (2016). Effect of ions on sulfuric acid-water binary particle formation: 2. experimental data and comparison with QC-normalized classical nucleation theory. Journal of Geophysical Research D: Atmospheres, 121(4), 1752-1775. https://doi.org/10.1002/2015JD023539
Comparison of the SAWNUC model with CLOUD measurements of sulphuric acid-water nucleation
Ehrhart, S., Ickes, L., Almeida, J., Amorim, A., Barmet, P., Bianchi, F., … Curtius, J. (2016). Comparison of the SAWNUC model with CLOUD measurements of sulphuric acid-water nucleation. Journal of Geophysical Research D: Atmospheres, 121(20), 12401-12414. https://doi.org/10.1002/2015JD023723
Reduced anthropogenic aerosol radiative forcing caused by biogenic new particle formation
Gordon, H., Sengupta, K., Rap, A., Duplissy, J., Frege, C., Williamson, C., … Carslaw, K. S. (2016). Reduced anthropogenic aerosol radiative forcing caused by biogenic new particle formation. Proceedings of the National Academy of Sciences of the United States of America PNAS, 113(43), 12053-12058. https://doi.org/10.1073/pnas.1602360113
Aqueous phase oxidation of sulphur dioxide by ozone in cloud droplets
Hoyle, C. R., Fuchs, C., Järvinen, E., Saathoff, H., Dias, A., El Haddad, I., … Baltensperger, U. (2016). Aqueous phase oxidation of sulphur dioxide by ozone in cloud droplets. Atmospheric Chemistry and Physics, 16(3), 1693-1712. https://doi.org/10.5194/acp-16-1693-2016
Ion-induced nucleation of pure biogenic particles
Kirkby, J., Duplissy, J., Sengupta, K., Frege, C., Gordon, H., Williamson, C., … Curtius, J. (2016). Ion-induced nucleation of pure biogenic particles. Nature, 533(7604), 521-526. https://doi.org/10.1038/nature17953
Experimental particle formation rates spanning tropospheric sulfuric acid and ammonia abundances, ion production rates, and temperatures
Kürten, A., Bianchi, F., Almeida, J., Kupiainen-Määttä, O., Dunne, E. M., Duplissy, J., … Curtius, J. (2016). Experimental particle formation rates spanning tropospheric sulfuric acid and ammonia abundances, ion production rates, and temperatures. Journal of Geophysical Research D: Atmospheres, 121(20), 12377-12400. https://doi.org/10.1002/2015JD023908
The effect of acid-base clustering and ions on the growth of atmospheric nano-particles
Lehtipalo, K., Rondo, L., Kontkanen, J., Schobesberger, S., Jokinen, T., Sarnela, N., … Kulmala, M. (2016). The effect of acid-base clustering and ions on the growth of atmospheric nano-particles. Nature Communications, 7, 11594 (9 pp.). https://doi.org/10.1038/ncomms11594
Phase transition observations and discrimination of small cloud particles by light polarization in expansion chamber experiments
Nichman, L., Fuchs, C., Järvinen, E., Ignatius, K., Höppel, N. F., Dias, A., … Tomé, A. (2016). Phase transition observations and discrimination of small cloud particles by light polarization in expansion chamber experiments. Atmospheric Chemistry and Physics, 16(5), 3651-3664. https://doi.org/10.5194/acp-16-3651-2016
Effect of dimethylamine on the gas phase sulfuric acid concentration measured by chemical ionization mass spectrometry
Rondo, L., Ehrhart, S., Kürten, A., Adamov, A., Bianchi, F., Breitenlechner, M., … Curtius, J. (2016). Effect of dimethylamine on the gas phase sulfuric acid concentration measured by chemical ionization mass spectrometry. Journal of Geophysical Research D: Atmospheres, 121(6), 3036-3049. https://doi.org/10.1002/2015JD023868