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Rapid growth of new atmospheric particles by nitric acid and ammonia condensation
Wang, M., Kong, W., Marten, R., He, X. C., Chen, D., Pfeifer, J., … Donahue, N. M. (2020). Rapid growth of new atmospheric particles by nitric acid and ammonia condensation. Nature, 581(7807), 184-189. https://doi.org/10.1038/s41586-020-2270-4
Solar eclipse demonstrating the importance of photochemistry in new particle formation
Jokinen, T., Kontkanen, J., Lehtipalo, K., Manninen, H. E., Aalto, J., Porcar-Castell, A., … Kulmala, M. (2017). Solar eclipse demonstrating the importance of photochemistry in new particle formation. Scientific Reports, 7, 45707 (5 pp.). https://doi.org/10.1038/srep45707
Measurements of sub-3 nm particles using a particle size magnifier in different environments: from clean mountain top to polluted megacities
Kontkanen, J., Lehtipalo, K., Ahonen, L., Kangasluoma, J., Manninen, H. E., Hakala, J., … Kulmala, M. (2017). Measurements of sub-3 nm particles using a particle size magnifier in different environments: from clean mountain top to polluted megacities. Atmospheric Chemistry and Physics, 17(3), 2163-2187. https://doi.org/10.5194/acp-17-2163-2017
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
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
Operation of the Airmodus A11 nano Condensation Nucleus Counter at various inlet pressures and various operation temperatures, and design of a new inlet system
Kangasluoma, J., Franchin, A., Duplissy, J., Ahonen, L., Korhonen, F., Attoui, M., … Petäjä, T. (2016). Operation of the Airmodus A11 nano Condensation Nucleus Counter at various inlet pressures and various operation temperatures, and design of a new inlet system. Atmospheric Measurement Techniques, 9(7), 2977-2988. https://doi.org/10.5194/amt-9-2977-2016
Aerosol decadal trends - part 2: in-situ aerosol particle number concentrations at GAW and ACTRIS stations
Asmi, A., Collaud Coen, M., Ogren, J. A., Andrews, E., Sheridan, P., Jefferson, A., … Laj, P. (2013). Aerosol decadal trends - part 2: in-situ aerosol particle number concentrations at GAW and ACTRIS stations. Atmospheric Chemistry and Physics, 13(2), 895-916. https://doi.org/10.5194/acp-13-895-2013
Molecular understanding of atmospheric particle formation from sulfuric acid and large oxidized organic molecules
Schobesberger, S., Junninen, H., Bianchi, F., Lönn, G., Ehn, M., Lehtipalo, K., … Worsnop, D. R. (2013). Molecular understanding of atmospheric particle formation from sulfuric acid and large oxidized organic molecules. Proceedings of the National Academy of Sciences of the United States of America PNAS, 110(43), 17223-17228. https://doi.org/10.1073/pnas.1306973110
Number size distributions and seasonality of submicron particles in Europe 2008-2009
Asmi, A., Wiedensohler, A., Laj, P., Fjaeraa, A. M., Sellegri, K., Birmili, W., … Kulmala, M. (2011). Number size distributions and seasonality of submicron particles in Europe 2008-2009. Atmospheric Chemistry and Physics, 11(11), 5505-5538. https://doi.org/10.5194/acp-11-5505-2011
General overview: European integrated project on aerosol cloud climate and air quality interactions (EUCAARI) – integrating aerosol research from nano to global scales
Kulmala, M., Asmi, A., Lappalainen, H. K., Baltensperger, U., Brenguier, J. L., Facchini, M. C., … Pandis, S. N. (2011). General overview: European integrated project on aerosol cloud climate and air quality interactions (EUCAARI) – integrating aerosol research from nano to global scales. Atmospheric Chemistry and Physics, 11(24), 13061-13143. https://doi.org/10.5194/acp-11-13061-2011
Primary versus secondary contributions to particle number concentrations in the European boundary layer
Reddington, C. L., Carslaw, K. S., Spracklen, D. V., Frontoso, M. G., Collins, L., Merikanto, J., … Duchi, R. (2011). Primary versus secondary contributions to particle number concentrations in the European boundary layer. Atmospheric Chemistry and Physics, 11(23), 12007-12036. https://doi.org/10.5194/acp-11-12007-2011
Organic condensation: A vital link connecting aerosol formation to cloud condensation nuclei (CCN) concentrations
Riipinen, I., Pierce, J. R., Yli-Juuti, T., Nieminen, T., Häkkinen, S., Ehn, M., … Kulmala, M. (2011). Organic condensation: A vital link connecting aerosol formation to cloud condensation nuclei (CCN) concentrations. Atmospheric Chemistry and Physics, 11(8), 3865-3878. https://doi.org/10.5194/acp-11-3865-2011
Atmospheric nucleation: highlights of the EUCAARI project and future directions
Kerminen, V. M., Petäjä, T., Manninen, H. E., Paasonen, P., Nieminen, T., Sipilä, M., … Kulmala, M. (2010). Atmospheric nucleation: highlights of the EUCAARI project and future directions. Atmospheric Chemistry and Physics, 10(22), 10829-10848. https://doi.org/10.5194/acp-10-10829-2010
An overview of current issues in the uptake of atmospheric trace gases by aerosols and clouds
Kolb, C. E., Cox, R. A., Abbatt, J. P. D., Ammann, M., Davis, E. J., Donaldson, D. J., … O'Dowd, C. D. (2010). An overview of current issues in the uptake of atmospheric trace gases by aerosols and clouds. Atmospheric Chemistry and Physics, 10(21), 10561-10605. https://doi.org/10.5194/acp-10-10561-2010
The Finokalia aerosol measurement Experiment - 2008 (FAME-08): an overview
Pikridas, M., Bougiatioti, A., Hildebrandt, L., Engelhart, G. J., Kostenidou, E., Mohr, C., … Pandis, S. N. (2010). The Finokalia aerosol measurement Experiment - 2008 (FAME-08): an overview. Atmospheric Chemistry and Physics, 10(14), 6793-6806. https://doi.org/10.5194/acp-10-6793-2010