Research Fellow (IERSD/NOA), Ph.D.
tel: (+30) 210 810 9170
fax: (+30) 210 810 3236
Institute for Environmental Research & Sustainable Development, National Observatory of Athens, I. Metaxa & Vas. Pavlou, P. Penteli (Lofos Koufou), 15236 Athens, Greece
Born in Athens, Greece, in 1976. Holds a Bachelor Degree in Geology (NKUA, 2000), an M.Sc. degree in Environmental Physics (2003), and a Doctorate in Physics (2009) in the Physics dept. of the same univ. Her Ph.D. Thesis was upon the inorganic aerosol chemistry (incl. heterogeneous) during anthropogenic and natural interaction of pollutants over Greece (funded scholarship). Conducted parallel research within the activities of the Numerical applications in the atmosphere Group at the Environmental Physics & Meteorology Division of the same dept. and univ. Worked as a Post-Doctoral fellow at the Karlsruhe Institute of Technology (IMK-TRO) during 2010-2011 in the field of secondary organic aerosol modeling. She then took a post-doctoral grant (2012-2015) for the project “Chemical and physical processes of atmospheric Aerosol over the Aegean Sea during Etesian and Saharan events” (Action: "Support of Postdoctoral Researchers", co-financed by EU & GR), at the NKUA in collaboration to Manchester Univ., UK. She was a contract lecturer (2017-2018) for the undergraduate course "Atmospheric Pollution", at the Physics Dept, University of Patras (Greece). She has participated in more than 20 research projects, published 14 articles (8 as a first author) in peer-reviewed journals, and more than 30 publications in conferences. She is a member of the APCG group (IERSD/NOA) since 2011, conducting research on the impact of pollution extremes (e.g. anthropogenic smog, wild fires, domestic heating, dust intrusions) on aerosol composition and meteorology, through numerical atmospheric modeling at the regional and local scales.
city-scale atmospheric modeling, numerical simulations of atmospheric processes, emission algorithms, atmospheric aerosol and interactions with meteorology/climate, parameterization of emissions and interaction with anthropogenic pollutants and meteorology/climate, secondary organic aerosol model development and interactions with meteorology/climate.