Martin Gysel focuses on Aerosol, Environmental chemistry, Differential mobility analyzer, Atmospheric sciences and Particulates. He is interested in Köhler theory, which is a field of Aerosol. His Köhler theory research integrates issues from Marine boundary layer, Radiative forcing, Climatology and Radiative transfer.
The Environmental chemistry study combines topics in areas such as Proton-transfer-reaction mass spectrometry, Thermal stability, Infrared spectroscopy and Ion chromatography. Martin Gysel has researched Atmospheric sciences in several fields, including Cloud droplet, Ultrafine particle and Particle. The concepts of his Particulates study are interwoven with issues in Properties of water, Mass spectrum and Fraction.
His scientific interests lie mostly in Aerosol, Atmospheric sciences, Cloud condensation nuclei, Analytical chemistry and Particle. His work carried out in the field of Aerosol brings together such families of science as Environmental chemistry, Relative humidity and Chemical composition. His Atmospheric sciences research incorporates elements of Planetary boundary layer, Radiative transfer, Radiative forcing and Atmosphere.
The various areas that he examines in his Cloud condensation nuclei study include Nucleation, Supersaturation, Particle number and Surface tension. His research integrates issues of Combustion, Ammonium sulfate, Mass fraction and Particle size in his study of Analytical chemistry. His studies in Particle integrate themes in fields like Soot, Range, Trace gas, Inorganic chemistry and Sea salt aerosol.
Martin Gysel mostly deals with Aerosol, Atmospheric sciences, Cloud condensation nuclei, Particle and Environmental chemistry. He studies Aerosol, focusing on Radiative forcing in particular. His Atmospheric sciences research is multidisciplinary, relying on both Planetary boundary layer, Meteorology and Aerosol chemical composition.
His research investigates the connection between Cloud condensation nuclei and topics such as Chemical physics that intersect with issues in Nucleation, Differential mobility analyzer and Atmosphere. His Particle research includes themes of Moisture, Sea salt, Sea salt aerosol and Sea spray. His Environmental chemistry study integrates concerns from other disciplines, such as Combustion, Particulates, Smoke plume, Fuel oil and Coating.
Martin Gysel focuses on Aerosol, Atmospheric sciences, Particulates, Meteorology and Combustion. In the field of Aerosol, his study on Radiative forcing and Cloud condensation nuclei overlaps with subjects such as Population. His study looks at the relationship between Atmospheric sciences and topics such as Particle, which overlap with Sea spray, Sea salt, Moisture, Particle size and Sea salt aerosol.
His Particulates study combines topics from a wide range of disciplines, such as Climatology, Total organic carbon, Seasonality and Geometric standard deviation. His study explores the link between Meteorology and topics such as Planetary boundary layer that cross with problems in Aerosol chemical composition, Tropospheric aerosol, Atmosphere and Atmospheric models. His research in Combustion intersects with topics in Environmental chemistry, Fuel oil and Absorption.
Mobility particle size spectrometers: harmonization of technical standards and data structure to facilitate high quality long-term observations of atmospheric particle number size distributions
A. Wiedensohler;W. Birmili;A. Nowak;A. Sonntag.
Atmospheric Measurement Techniques (2012)
Chemical characterisation of PM2.5, PM10 and coarse particles at urban, near-city and rural sites in Switzerland
Christoph Hueglin;Robert Gehrig;Urs Baltensperger;Martin Gysel.
Atmospheric Environment (2005)
The effect of physical and chemical aerosol properties on warm cloud droplet activation
G. Mcfiggans;P. Artaxo;Urs Baltensperger;H. Coe.
Atmospheric Chemistry and Physics (2005)
The role of low-volatility organic compounds in initial particle growth in the atmosphere
Jasmin Tröstl;Wayne K. Chuang;Hamish Gordon;Martin Heinritzi.
Hygroscopic properties of submicrometer atmospheric aerosol particles measured with H-TDMA instruments in various environments—a review
Erik Swietlicki;H-C Hansson;K Hameri;Birgitta Svenningsson.
Tellus B (2008)
A study of wood burning and traffic aerosols in an Alpine valley using a multi-wavelength Aethalometer
J. Sandradewi;A.S.H. Prévôt;E. Weingartner;R. Schmidhauser.
Atmospheric Environment (2008)
New particle formation in the free troposphere: A question of chemistry and timing.
Federico Bianchi;Federico Bianchi;Federico Bianchi;Jasmin Tröstl;Heikki Junninen;Carla Frege.
Relating hygroscopicity and composition of organic aerosol particulate matter
J. Duplissy;J. Duplissy;P. F. DeCarlo;P. F. DeCarlo;J. Dommen;M. R. Alfarra.
Atmospheric Chemistry and Physics (2011)
Secondary organic aerosols from anthropogenic and biogenic precursors
U. Baltensperger;M. Kalberer;J. Dommen;D. Paulsen.
Faraday Discussions (2005)
A mass spectrometric study of secondary organic aerosols formed from the photooxidation of anthropogenic and biogenic precursors in a reaction chamber
M. R. Alfarra;M. R. Alfarra;D. Paulsen;D. Paulsen;M. Gysel;M. Gysel;A. A. Garforth.
Atmospheric Chemistry and Physics (2006)
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