Add to ORKGInternational audienceCritical supersaturations for internally mixed particles of adipic acid, succinic acid and sodium chloride were determined experimentally for dry particles sizes in the range 40?130 nm. Surface tensions of aqueous solutions of the dicarboxylic acids and sodium chloride corresponding to concentrations at activation were measured and parameterized as a function of carbon content. The activation of solid particles as well as solution droplets were studied and particle phase was found to be important for the critical supersaturation. Experimental data were modelled using Köhler theory modified to account for limited solubility and surface tension lowering
Aerosol-cloud interactions are one of the main sources of uncertainties in modeling and predicting t...
International audienceSoluble compounds present in atmospheric aerosol facilitate their transformati...
International audienceThe organic fraction of atmospheric aerosols contains a multitude of compounds...
International audienceCritical supersaturations for internally mixed particles of adipic acid, succi...
Organic compounds with surfactant properties are commonly found in atmospheric aerosol particles. Su...
International audienceSurface tension of ternary solution of sodium chloride, succinic acid and wate...
We have investigated CCN properties of internally mixed particles composed of one organic acid (oxal...
International audienceIn this study vapour pressure osmometry was used to determine water activity i...
Surface tension of ternary solution of sodium chloride, succinic acid and water was measured as a fu...
International audienceIn this study vapour pressure osmometry was used to determine water activity i...
International audienceAtmospheric aerosol particles typically consist of inorganic salts and organic...
In this study vapour pressure osmometry was used to determine water activity in the solutions of org...
Surface tension influences the fraction of atmospheric particles that become cloud droplets. Althoug...
The spontaneous growth of cloud condensation nuclei (CCN) into cloud droplets under supersaturated w...
International audienceThe organic fraction of atmospheric aerosols contains a multitude of compounds...
Aerosol-cloud interactions are one of the main sources of uncertainties in modeling and predicting t...
International audienceSoluble compounds present in atmospheric aerosol facilitate their transformati...
International audienceThe organic fraction of atmospheric aerosols contains a multitude of compounds...
International audienceCritical supersaturations for internally mixed particles of adipic acid, succi...
Organic compounds with surfactant properties are commonly found in atmospheric aerosol particles. Su...
International audienceSurface tension of ternary solution of sodium chloride, succinic acid and wate...
We have investigated CCN properties of internally mixed particles composed of one organic acid (oxal...
International audienceIn this study vapour pressure osmometry was used to determine water activity i...
Surface tension of ternary solution of sodium chloride, succinic acid and water was measured as a fu...
International audienceIn this study vapour pressure osmometry was used to determine water activity i...
International audienceAtmospheric aerosol particles typically consist of inorganic salts and organic...
In this study vapour pressure osmometry was used to determine water activity in the solutions of org...
Surface tension influences the fraction of atmospheric particles that become cloud droplets. Althoug...
The spontaneous growth of cloud condensation nuclei (CCN) into cloud droplets under supersaturated w...
International audienceThe organic fraction of atmospheric aerosols contains a multitude of compounds...
Aerosol-cloud interactions are one of the main sources of uncertainties in modeling and predicting t...
International audienceSoluble compounds present in atmospheric aerosol facilitate their transformati...
International audienceThe organic fraction of atmospheric aerosols contains a multitude of compounds...