Crystal structure prediction for aprotic ionic liquids – searching for the unknown
Crystal structure prediction for aprotic ionic liquids – searching for the unknown
Ionic liquids (ILs) represent an extensively studied class of materials. Nevertheless, their solid state has been often overlooked, leading to frequent knowledge gaps about their phase behavior or crystal structures that such materials may form. This work focuses on development of a crystal structure prediction (CSP) scheme suitable for aprotic IL, relying on quasi-random crystal structure generation, dispersion-corrected density-functional theory (DFT-D) based energy re-ranking and quasi-harmonic phonon treatment. Interpretation of peculiar differences in crystallizability of very similar ILs upon cooling of their melts is presented. Versatility of the computational protocol is validated for [emIm][MeSO3], an IL known to be polymorphic. Current CSP identifies the [emIm][MeSO3] polymorph that is thermodynamically stable in reality at the top of the stability ranking both in terms of DFT-D refined lattice energies and quasi-harmonic Gibbs free energies. Several low-energy high-entropy crystal structures are also proposed for [emIm][MeSO3] as candidates for the remaining known polymorphs with yet unresolved crystal structures. Our CSP modeling explains the extraordinary reluctance of [emIm][EtSO4] to crystallize due to its glassy shape of the polymorph landscape with no distinct global energy minimum crystal structure.
1445-1458
Tous, Petr
dd1d9d73-2510-48b3-b75c-05e8fade5f7f
Day, Graeme M.
e3be79ba-ad12-4461-b735-74d5c4355636
Cervinka, Ctirad
38366bd5-d852-46ec-a666-b1e631dbf2ce
4 February 2026
Tous, Petr
dd1d9d73-2510-48b3-b75c-05e8fade5f7f
Day, Graeme M.
e3be79ba-ad12-4461-b735-74d5c4355636
Cervinka, Ctirad
38366bd5-d852-46ec-a666-b1e631dbf2ce
Tous, Petr, Day, Graeme M. and Cervinka, Ctirad
(2026)
Crystal structure prediction for aprotic ionic liquids – searching for the unknown.
Crystal Growth & Design, 26 (3), .
(doi:10.1021/acs.cgd.5c01674).
Abstract
Ionic liquids (ILs) represent an extensively studied class of materials. Nevertheless, their solid state has been often overlooked, leading to frequent knowledge gaps about their phase behavior or crystal structures that such materials may form. This work focuses on development of a crystal structure prediction (CSP) scheme suitable for aprotic IL, relying on quasi-random crystal structure generation, dispersion-corrected density-functional theory (DFT-D) based energy re-ranking and quasi-harmonic phonon treatment. Interpretation of peculiar differences in crystallizability of very similar ILs upon cooling of their melts is presented. Versatility of the computational protocol is validated for [emIm][MeSO3], an IL known to be polymorphic. Current CSP identifies the [emIm][MeSO3] polymorph that is thermodynamically stable in reality at the top of the stability ranking both in terms of DFT-D refined lattice energies and quasi-harmonic Gibbs free energies. Several low-energy high-entropy crystal structures are also proposed for [emIm][MeSO3] as candidates for the remaining known polymorphs with yet unresolved crystal structures. Our CSP modeling explains the extraordinary reluctance of [emIm][EtSO4] to crystallize due to its glassy shape of the polymorph landscape with no distinct global energy minimum crystal structure.
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CSP_IL revised
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crystal-structure-prediction-for-aprotic-ionic-liquids-searching-for-the-unknown
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Accepted/In Press date: 9 January 2026
e-pub ahead of print date: 19 January 2026
Published date: 4 February 2026
Identifiers
Local EPrints ID: 509433
URI: http://eprints.soton.ac.uk/id/eprint/509433
ISSN: 1528-7483
PURE UUID: 6794ad8f-60d2-4d79-846a-ec01d911b2cc
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Date deposited: 23 Feb 2026 17:36
Last modified: 24 Feb 2026 02:47
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Author:
Petr Tous
Author:
Ctirad Cervinka
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