!!Athanasios Nenes - Selected Publications
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Kodros, J.K., Papanastasiou, D., Paglione, M., Masiol, M., Squizzato, S., Florou, K., Skyllakou, K., Kaltsonoudis, C., Nenes, A., Pandis, S.N.P. (2020) Rapid dark aging of biomass burning as an overlooked source of oxidized organic aerosol, PNAS, vol. 117, no. 52; https://doi.org/10.1073/pnas.2010365117 (in the top 5% of cited papers of its age; identifies completely new ways that pollution is formed in cities and affects public health)\\
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Pye, H. O. T., Nenes, A., Alexander, B., Ault, A. P., Barth, M. C., Clegg, S. L., Collett Jr., J. L., Fahey, K. M., Hennigan, C. J., Herrmann, H., Kanakidou, M., Kelly, J. T., Ku, I.-T., McNeill, V. F., Riemer, N., Schaefer, T., Shi, G., Tilgner, A., Walker, J. T., Wang, T., Weber, R., Xing, J., Zaveri, R. A., and Zuend, A.: (2020) The Acidity of Atmospheric Particles and Clouds, Atmos. Chem. Phys., 20, 4809–4888 (top downloaded paper in the journal for 2020; a first of its kind review co-lead by A. Nenes on acidity of atmospheric particles)\\
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Ito, T., Nenes, A., Johnson, M. S., Meskhidze, N., Valett, J., and Deutsch, C. (2016) Late 20th century deoxygenation of the tropical Pacific enhanced by aerosol pollutants, Nature Geosci., doi:10.1038/ngeo2717 \\
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Sullivan, S.C., Lee, D., Oreopoulos, L., and Nenes, A (2016) Role of updraft velocity in temporal variability of cloud hydrometeor number, PNAS, 113, 21, doi: 10.1073/pnas.1514039113 (Showed that vertical velocity, is virtually unconstrained in climate models – yet drives most of the variability in cloud particle formation.)\\
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Weber, R.J., Guo, H., Russell, A.G., Nenes, A. (2016) High aerosol acidity despite declining atmospheric sulfate concentrations over the past 15 years, Nature Geosci., doi:10.1038/ngeo2665 (182 citations to date. Proved that strongly acidic particles are ubiquitous and respond in counterintuitive ways to emissions.)\\
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Xu, L., Guo, H., …, Weber, R., Nenes, A., Ng, N.L. (2015) Effects of Anthropogenic Emissions on Aerosol Formation from Isoprene and Monoterpenes in the Southeastern United States: Insights from SOAS and Beyond, PNAS, 112, 37-42, doi: 10.1073/pnas.1417609112 (~300 citations in the Web of Science)\\
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Raatikainen,T., Nenes, A., et al. (2013) Worldwide data sets constrain the water vapor uptake coefficient in cloud formation, PNAS, 10.1073/pnas.1219591110 (solved a long-standing question: do organic “films” slowdown droplet growth and cloud formation?)\\
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DeLeon-Rodriguez, N., Lathem, T.L., Rodriguez, L.M., Barazesh, J.M., Anderson, B.E., Beyersdorf, A.J., Ziemba, L.D., Bergin, M., Nenes, A., Konstantinidis, K.T. (2013) The microbiome of the upper troposphere: species composition and prevalence, effects of tropical storms, and atmospheric implications, PNAS, doi: 10.1073/pnas.1212089110 (~230 citations to date in Web of Science. identified that atmospheric bacteria are ubiquitous, viable and potentially affecting clouds everywhere)\\
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Fountoukis, C. and Nenes, A. (2007) ISORROPIA II: A Computationally Efficient Aerosol Thermodynamic Equilibrium Model for K+ – Ca2+ – Mg2+ – NH4+ – Na+ – SO42- – NO3- – Cl- – H2O Aerosols, Atmos. Chem. Phys., 7, 4639–4659 (720 citations to date in Web of Science. Model of choice used worldwide to predict particulate matter composition).\\
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Roberts, G., and Nenes, A. (2005) A Continuous-Flow Longitudinal Thermal-Gradient CCN Chamber for Atmospheric Measurements, Aeros. Sci. Tech., 39, 206–221, doi:10.1080/027868290913988 (~480 citations in the Web of Science. Paper illustrating the CCN instrument that was eventually patented and dominated the field)