Combining structural rugosity and crystal packing comparison: A route to more polymorphs?
Combining structural rugosity and crystal packing comparison: A route to more polymorphs?
In this study, we have combined structural comparisons and the rugosity model to investigate experimental and predicted crystal structures from previous results of a crystal structure prediction study on a group of three rigid, planar small molecules, 2-methyl-, 3-methyl-, and 2,3-dimethyl-benzo[b]thiophene 1,1-dioxide. The results of the crystal structure comparisons provided some insights into the possibility that pairs of predictions, close in energy, might be related by potential phase transitions. In particular, we observed that for some pairs of predictions, a transformation from one type of crystal packing to the other would require only small shifts between adjacent molecules. This raised the question of whether only a few of these predictions can effectively be experimentally isolated. The calculations of the structural rugosity, a parameter that correlates surface rugosity with ease of crystallization, indicated smooth surfaces only for a few predictions. With the aim to isolate new polymorphs, we performed a small experimental study, limited to a few common solvents and crystallizations from the melt. Crystallizations from the melt selectively produced single crystals of new polymorphs for the 3-methyl- and the 2,3-methyl-benzothiophene derivatives. These showed good correlations with the above calculations, suggesting that the combination of crystal structure analysis and experimental screening might represent a useful approach in polymorphism screenings.
559 - 569
Montis, Riccardo
9d080088-299a-49ce-a4dd-caf10d325acc
Hursthouse, Michael
57a2ddf9-b1b3-4f38-bfe9-ef2f526388da
Kendrick, John
94d1a2a2-6c7e-41f8-8ef2-036d5bdfa930
Howe, Jason
724ecc5b-480d-4848-965a-78b7c2a6b271
Whitby, Richard J.
45632236-ab00-4ad0-a02d-6209043e818b
7 December 2021
Montis, Riccardo
9d080088-299a-49ce-a4dd-caf10d325acc
Hursthouse, Michael
57a2ddf9-b1b3-4f38-bfe9-ef2f526388da
Kendrick, John
94d1a2a2-6c7e-41f8-8ef2-036d5bdfa930
Howe, Jason
724ecc5b-480d-4848-965a-78b7c2a6b271
Whitby, Richard J.
45632236-ab00-4ad0-a02d-6209043e818b
Montis, Riccardo, Hursthouse, Michael, Kendrick, John, Howe, Jason and Whitby, Richard J.
(2021)
Combining structural rugosity and crystal packing comparison: A route to more polymorphs?
Crystal Growth & Design, .
(doi:10.1021/acs.cgd.1c01132).
Abstract
In this study, we have combined structural comparisons and the rugosity model to investigate experimental and predicted crystal structures from previous results of a crystal structure prediction study on a group of three rigid, planar small molecules, 2-methyl-, 3-methyl-, and 2,3-dimethyl-benzo[b]thiophene 1,1-dioxide. The results of the crystal structure comparisons provided some insights into the possibility that pairs of predictions, close in energy, might be related by potential phase transitions. In particular, we observed that for some pairs of predictions, a transformation from one type of crystal packing to the other would require only small shifts between adjacent molecules. This raised the question of whether only a few of these predictions can effectively be experimentally isolated. The calculations of the structural rugosity, a parameter that correlates surface rugosity with ease of crystallization, indicated smooth surfaces only for a few predictions. With the aim to isolate new polymorphs, we performed a small experimental study, limited to a few common solvents and crystallizations from the melt. Crystallizations from the melt selectively produced single crystals of new polymorphs for the 3-methyl- and the 2,3-methyl-benzothiophene derivatives. These showed good correlations with the above calculations, suggesting that the combination of crystal structure analysis and experimental screening might represent a useful approach in polymorphism screenings.
Text
R Montis et al_Manuscript
- Accepted Manuscript
More information
Accepted/In Press date: 2021
Published date: 7 December 2021
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Publisher Copyright:
© 2021 American Chemical Society.
Copyright:
Copyright 2021 Elsevier B.V., All rights reserved.
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Local EPrints ID: 452879
URI: http://eprints.soton.ac.uk/id/eprint/452879
ISSN: 1528-7483
PURE UUID: 95c55f9a-4c3a-43db-8008-d9c5e188c1d9
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Date deposited: 06 Jan 2022 17:38
Last modified: 06 Jun 2024 04:11
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Author:
Riccardo Montis
Author:
John Kendrick
Author:
Jason Howe
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