Details

Autor(en) / Beteiligte

• Schnitzler, Elijah G.
• Gac, Jakub M.
• Jäger, Wolfgang

Titel

Coating surface tension dependence of soot aggregate restructuring

Ist Teil von

• Journal of aerosol science, 2017-04, Vol.106, p.43-55

Ort / Verlag

Elsevier Ltd

Erscheinungsjahr

2017

Link zum Volltext

Quelle

Elsevier ScienceDirect Journals Complete

Beschreibungen/Notizen

• Atmospheric aerosols affect climate directly, by absorbing and scattering solar radiation, and indirectly, by altering cloud albedo and lifetime. Here, using a tandem differential mobility analyzer and a numerical model, we demonstrate that the restructuring of soot aggregates due to liquid coatings increases with the surface tension of the coating material. The agreement between the experimental and numerical modelling results further demonstrates that restructuring occurs upon coating condensation, not evaporation. These findings provide constraints on the direct effect of black carbon. In turn, using soot aggregates as novel nano-probes, we estimate the surface tension of secondary organic aerosol derived from the photo-oxidation of m-xylene to be 38 ± 3mNm−1 under the present experimental conditions. Since surface tension influences nucleation and condensational growth, processes which lead to particles large enough to act as cloud condensation nuclei, our measurement provides an important constraint on the indirect effect of secondary organic aerosol. [Display omitted] •The degree of soot aggregate restructuring increases with coating surface tension.•A qualitative numerical model reproduces the surface tension dependence.•Soot aggregate restructuring occurs during coating condensation, not evaporation.•The surface tension of m-xylene secondary organic aerosol is estimated experimentally.