Volume 235, 2022

Nucleation in sessile saline microdroplets: induction time measurement via deliquescence–recrystallization cycling

Abstract

Induction time, a measure of how long one will wait for nucleation to occur, is an important parameter in quantifying nucleation kinetics and its underlying mechanisms. Due to the stochastic nature of nucleation, efficient methods for measuring large numbers of independent induction times are needed to ensure statistical reproducibility. In this work, we present a novel approach for measuring and analyzing induction times in sessile arrays of microdroplets via deliquescence/recrystallization cycling. With the help of a recently developed image analysis protocol, we show that the interfering diffusion-mediated interactions between microdroplets can be eliminated by controlling the relative humidity, thereby ensuring independent nucleation events. Moreover, possible influence of heterogeneities, impurities, and memory effect appear negligible as suggested by our 2-cycle experiment. Further statistical analysis (k-sample Anderson–Darling test) reveals that upon identifying possible outliers, the dimensionless induction times obtained from different datasets (microdroplet lines) obey the same distribution and thus can be pooled together to form a much larger dataset. The pooled dataset showed an excellent fit with the Weibull function, giving a mean supersaturation at nucleation of 1.61 and 1.85 for the 60 pL and 4 pL microdroplets respectively. This confirms the effect of confinement where smaller systems require higher supersaturations to nucleate. Both the experimental method and the data-treatment procedure presented herein offer promising routes in the study of fundamental aspects of nucleation kinetics, particularly confinement effects, and are adaptable to other salts, pharmaceuticals, or biological crystals of interest.

Graphical abstract: Nucleation in sessile saline microdroplets: induction time measurement via deliquescence–recrystallization cycling

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Supplementary files

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Article information

Article type
Paper
Submitted
19 Nov 2021
Accepted
28 Jan 2022
First published
28 Jan 2022

Faraday Discuss., 2022,235, 183-197

Nucleation in sessile saline microdroplets: induction time measurement via deliquescence–recrystallization cycling

R. Cedeno, R. Grossier, M. Lagaize, D. Nerini, N. Candoni, A. Flood and S. Veesler, Faraday Discuss., 2022, 235, 183 DOI: 10.1039/D1FD00090J

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