Studies of the Crystallization and Dissolution of Individual Suspended Sodium Chloride Aerosol Particles

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Abstract

Aerosols transform between physical phases, as they respond to variations in environmental conditions. There are many industries that depend on these dynamic processes of crystallization and dissolution. Here, a single particle technique (an electrodynamic balance) is used to explore the crystallization and dissolution dynamics of a model system, sodium chloride. The physical and environmental factors that influence the dynamics of crystal formation from a saline droplet (whose initial radius is ∼25 μm) and the kinetics of water adsorption onto dried particles are examined. The drying relative humidity (RH) is shown to impact the physical properties of the dried particle. When a saline droplet is injected into an airflow at an RH close to the efflorescence RH (ERH, 45%), an individual single crystal forms. By contrast, when a compositionally equivalent saline droplet is injected into dry air (RH ∼ 0%), a salt crystal made of multiple crystalline particles is formed. Subsequent to crystallization, the crystal shape, morphology, and surface area were all found to affect the dissolution dynamics of the dried particle. Additionally, we report that the difference between the deliquesce RH and environmental RH significantly impacts the dissolution time scale.

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Armstrong Green, N. C., Haddrell, A. E., Gregson, F. K. A., Lewis, D., Church, T., & Reid, J. P. (2024). Studies of the Crystallization and Dissolution of Individual Suspended Sodium Chloride Aerosol Particles. Journal of Physical Chemistry A, 128(21), 4315–4323. https://doi.org/10.1021/acs.jpca.4c02158

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