Research Output per year
Laboratory studies can provide important insights into the processes that occur at the scale of individual particles in ambient aerosol. We examine the accuracies of measurements of core physicochemical properties of aerosols that can be made in single particle studies and explore the impact of these properties on the microscopic processes that occur in ambient aerosol. Presenting new measurements, we examine here the refinements in our understanding of aerosol hygroscopicity, surface tension, viscosity and optical properties that can be gained from detailed laboratory measurements for complex mixtures through to surrogates for secondary organic atmospheric aerosols.
|Date made available||26 May 2017|
|Publisher||University of Bristol|
Accurate representations of the physicochemical properties of atmospheric aerosols: when are laboratory measurements of value?Marsh, A., Rovelli, G., Song, Y. C., Pereira, K., Willoughby, R., Bzdek, B., Hamilton, J., Orr-Ewing, A., Topping, D. & Reid, J., 1 Aug 2017, In : Faraday Discussions. 200, p. 639-661 23 p.
Research output: Contribution to journal › Article (Academic Journal)
17 Citations (Scopus)
297 Downloads (Pure)
Marsh, A. (Creator), Haddrell, A. (Creator), Rovelli, G. (Creator), Cotterell, M. (Creator), Rickards, A. (Creator), Song, Y. C. (Creator), Miles, R. (Creator), Bzdek, B. (Creator), Marshall, F. (Creator), Willoughby, R. (Creator), Reid, J. (Creator) (26 May 2017). Accurate Representations of the Physicochemical Properties of Atmospheric Aerosols - Faraday Discussion 2017. University of Bristol. 10.5523/bris.1tu9y4ue9vzfx27hnzz9ch5zu7