Issue 11, 2023

Acoustic levitation with polarising optical microscopy (AL-POM): water uptake in a nanostructured atmospheric aerosol proxy

Abstract

Laboratory studies on levitated particles of atmospheric aerosol proxies have provided significant contributions to our understanding of aerosol processes. We present an experimental method combining acoustic levitation with polarising optical microscopy (AL-POM) to probe optically birefringent particles, such as the nanostructured surfactant atmospheric aerosol proxy studied here. Birefringent particles were subjected to a step increase in humidity. A decrease in birefringence was measured over time as a result of a nanostructure change, confirmed by complementary synchrotron X-ray scattering. A multi-layer water uptake model was created and fitted to the experimental data, revealing a water diffusion coefficient increase by ca. 5–6 orders of magnitude upon phase transition. This has implications for the timescale of water uptake in surfactant-containing aerosols and their atmospheric lifetimes. This experimental setup has strong potential to be used in conjunction with other levitation methods and in different contexts concerning birefringent materials such as crystallisation.

Graphical abstract: Acoustic levitation with polarising optical microscopy (AL-POM): water uptake in a nanostructured atmospheric aerosol proxy

Supplementary files

Article information

Article type
Paper
Submitted
09 Jun 2023
Accepted
08 Sep 2023
First published
26 Sep 2023
This article is Open Access
Creative Commons BY license

Environ. Sci.: Atmos., 2023,3, 1642-1650

Acoustic levitation with polarising optical microscopy (AL-POM): water uptake in a nanostructured atmospheric aerosol proxy

A. Milsom, A. M. Squires, C. Brasnett, W. N. Sharratt, A. M. Seddon and C. Pfrang, Environ. Sci.: Atmos., 2023, 3, 1642 DOI: 10.1039/D3EA00083D

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