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Online Monitoring of the Concentrations of Amorphous and Crystalline Mesoscopic Species Present in Solution

Authors :
Marco Mazzotti
Michele Chen
Byeongho Ahn
Source :
Crystal Growth & Design, 22 (8)
Publication Year :
2022
Publisher :
ETH Zurich, 2022.

Abstract

Despite the growing evidence for the existence of amorphous mesoscopic species in a solution and their crucial roles in crystallization, there has been the lack of a suitable method to measure the time-resolved concentrations of amorphous and crystalline mesospecies in a lab-scale stirred reactor. This has limited experimental investigations to understand the kinetics of amorphous and crystalline mesospecies formation in stirred solutions and made it challenging to measure the crystal nucleation rate directly. Here, we used depolarized light sheet microscopy to achieve time-resolved measurements of amorphous and crystalline mesospecies concentrations in solutions at varying temperatures. After demonstrating that the concentration measurement method is reasonably accurate, precise, and sensitive, we utilized this method to examine mesospecies formation both in a mixture of two miscible liquids and in an undersaturated solution of DL-valine, thus revealing the importance of a temperature change in the formation of metastable and amorphous mesospecies as well as the reproducibility of the measurements. Moreover, we used the presented method to monitor both mesospecies formation and crystal nucleation in DL-valine solutions at four different levels of supersaturation, while achieving the direct measurement of the crystal nucleation rates in stirred solutions. Our results show that, as expected, the inherent variability in nucleation originating from its stochastic nature reduces with increasing supersaturation, and the dependence of the measured nucleation rate on supersaturation is in reasonable agreement with that predicted by the classical nucleation theory.<br />Crystal Growth & Design, 22 (8)<br />ISSN:1528-7483<br />ISSN:1528-7505

Details

Language :
English
ISSN :
15287483 and 15287505
Database :
OpenAIRE
Journal :
Crystal Growth & Design, 22 (8)
Accession number :
edsair.doi.dedup.....aa0e36c5aaeb762a0e6e9eb78858449f
Full Text :
https://doi.org/10.3929/ethz-b-000560961