2023 - Research.com Environmental Sciences in Germany Leader Award
His scientific interests lie mostly in Ozone, NOx, Aerosol, Photodissociation and Environmental chemistry. The subject of his Ozone research is within the realm of Meteorology. His Meteorology study combines topics in areas such as Air pollution and Analytical chemistry.
His biological study focuses on Cloud condensation nuclei. The study incorporates disciplines such as Daytime, Radical, Nitrous acid and Laser-induced fluorescence in addition to Photodissociation. The concepts of his Environmental chemistry study are interwoven with issues in Reactivity and Atmospheric chemistry.
His primary areas of study are Atmospheric sciences, Aerosol, Atmosphere, Environmental chemistry and Analytical chemistry. His research in Atmospheric sciences intersects with topics in Planetary boundary layer, Climatology and Meteorology. Andreas Wahner works in the field of Aerosol, namely Cloud condensation nuclei.
Andreas Wahner has researched Environmental chemistry in several fields, including Organic chemistry, Formaldehyde, Ozone and Atmospheric chemistry. He works mostly in the field of Ozone, limiting it down to concerns involving NOx and, occasionally, Radical, Photodissociation and Daytime. His work deals with themes such as Trace gas and Water vapor, which intersect with Troposphere.
His main research concerns Radical, Atmospheric sciences, Ozone, Environmental chemistry and Photochemistry. His Radical research is multidisciplinary, incorporating perspectives in Yield, Trace gas, Meteorology, Carbon monoxide and Photodissociation. His work carried out in the field of Atmospheric sciences brings together such families of science as Atmosphere, Atmospheric chemistry and Climatology.
The various areas that Andreas Wahner examines in his Ozone study include Nitrogen dioxide, NOx, Nitrogen oxide, Analytical chemistry and Ozonolysis. His Environmental chemistry study incorporates themes from Organic chemistry, Formaldehyde, Aerosol and Hydroperoxyl. Andreas Wahner studies Aerosol, namely Cloud condensation nuclei.
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A large source of low-volatility secondary organic aerosol
Mikael Ehn;Joel A. Thornton;Einhard Kleist;Mikko Sipila.
Rapid aerosol particle growth and increase of cloud condensation nucleus activity by secondary aerosol formation and condensation: A case study for regional air pollution in northeastern China
A. Wiedensohler;Y. F. Cheng;A. Nowak;B. Wehner.
Journal of Geophysical Research (2009)
Amplified trace gas removal in the troposphere.
Andreas Hofzumahaus;Franz Rohrer;Keding Lu;Keding Lu;Birger Bohn.
Daytime formation of nitrous acid: A major source of OH radicals in a forest
Jörg Kleffmann;Traian Gavriloaiei;Andreas Hofzumahaus;Frank Holland.
Geophysical Research Letters (2005)
European scientific assessment of the atmospheric effects of aircraft emissions
G.P. Brasseur;R.A. Cox;D. Hauglustaine;I. Isaksen.
Atmospheric Environment (1998)
Observation and modelling of OH and HO 2 concentrations in the Pearl River Delta 2006: a missing OH source in a VOC rich atmosphere
K. D. Lu;K. D. Lu;F. Rohrer;F. Holland;H. Fuchs.
Atmospheric Chemistry and Physics (2012)
Characterisation of the photolytic HONO-source in the atmosphere simulation chamber SAPHIR
F. Rohrer;B. Bohn;T. Brauers;D. Brüning.
Atmospheric Chemistry and Physics (2004)
New particle formation in forests inhibited by isoprene emissions.
Astrid Kiendler-Scharr;Juergen Wildt;Miikka Dal Maso;Thorsten Hohaus.
Aging of biogenic secondary organic aerosol via gas-phase OH radical reactions
Neil M. Donahue;Kaytlin M. Henry;Thomas F. Mentel;Astrid Kiendler-Scharr.
Proceedings of the National Academy of Sciences of the United States of America (2012)
Gas phase formation of extremely oxidized pinene reaction products in chamber and ambient air
M. Ehn;E. Kleist;H. Junninen;T. Petäjä.
Atmospheric Chemistry and Physics (2012)
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