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Visualising early-stage liquid phase organic crystal growth via liquid cell electron microscopy†

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posted on 2020-03-20, 10:54 authored by Jennifer CookmanJennifer Cookman, Victoria Hamilton, Louise S. Price, Simon R. Hall, Ursel BangertUrsel Bangert
Here, we show that the development of nuclei and subsequent growth of a molecular organic crystal system can be induced by electron beam irradiation by exploiting the radiation chemistry of the carrier solvent. The technique of Liquid Cell Electron Microscopy was used to probe the crystal growth of flufenamic acid; a current commercialised active pharmaceutical ingredient. This work demonstrates liquid phase electron microscopy analysis as an essential tool for assessing pharmaceutical crystal growth in their native environment while giving insight into polymorph identification of nano-crystals at their very inception. Possible mechanisms of crystal nucleation due to the electron beam with a focus on radiolysis are discussed along with the innovations this technique offers to the study of pharmaceutical crystals and other low contrast materials.

History

Publication

Nanoscale;12, pp. 4636–4644

Publisher

Royal Society of Chemistry

Note

peer-reviewed

Other Funding information

European Union (EU), EPRSC

Language

English

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