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Computational modelling of solvent effects in a prolific solvatomorphic porous organic cage

Computational modelling of solvent effects in a prolific solvatomorphic porous organic cage
Computational modelling of solvent effects in a prolific solvatomorphic porous organic cage
Crystal structure prediction methods can enable the in silico design of functional molecular crystals, but solvent effects can have a major influence on relative lattice energies sometimes thwarting predictions. This is particularly true for porous solids, where solvent included in the pores can have an important energetic contribution. Here we present a Monte Carlo solvent insertion procedure for predicting the solvent filling of porous structures from crystal structure prediction landscapes, tested using a highly solvatomorphic porous organic cage molecule, CC1. We use this method to rationalise the fact that the predicted global energy minimum structure for CC1 is never observed from solvent crystallisation. We also explain the formation of three different solvatomorphs of CC1 from three structurally-similar chlorinated solvents. Calculated solvent stabilisation energies are found to correlate with experimental results from thermogravimetric analysis, suggesting a future computational framework for a priori materials design that includes solvation effects.
1359-6640
383-399
Mcmahon, David P.
026a4184-d048-4a12-964e-5c6d9da81c68
Stephenson, Andrew
989fa85a-ba00-476e-b4cf-53e2a2ce3d2d
Chong, Samantha Y.
2e23eea0-c8eb-48bb-8e69-7f3a50d0e812
Little, Marc A.
2499da90-f2de-4179-a41e-4931b3409584
Jones, James T.A.
bda2c4c2-7673-4efd-8a88-02d036f2b8db
Cooper, Andrew I.
95618a3b-7f3f-4731-a0d4-0a7b7ce07302
Day, Graeme M.
e3be79ba-ad12-4461-b735-74d5c4355636
Mcmahon, David P.
026a4184-d048-4a12-964e-5c6d9da81c68
Stephenson, Andrew
989fa85a-ba00-476e-b4cf-53e2a2ce3d2d
Chong, Samantha Y.
2e23eea0-c8eb-48bb-8e69-7f3a50d0e812
Little, Marc A.
2499da90-f2de-4179-a41e-4931b3409584
Jones, James T.A.
bda2c4c2-7673-4efd-8a88-02d036f2b8db
Cooper, Andrew I.
95618a3b-7f3f-4731-a0d4-0a7b7ce07302
Day, Graeme M.
e3be79ba-ad12-4461-b735-74d5c4355636

Mcmahon, David P., Stephenson, Andrew, Chong, Samantha Y., Little, Marc A., Jones, James T.A., Cooper, Andrew I. and Day, Graeme M. (2018) Computational modelling of solvent effects in a prolific solvatomorphic porous organic cage. Faraday Discussions, 211, 383-399. (doi:10.1039/C8FD00031J).

Record type: Article

Abstract

Crystal structure prediction methods can enable the in silico design of functional molecular crystals, but solvent effects can have a major influence on relative lattice energies sometimes thwarting predictions. This is particularly true for porous solids, where solvent included in the pores can have an important energetic contribution. Here we present a Monte Carlo solvent insertion procedure for predicting the solvent filling of porous structures from crystal structure prediction landscapes, tested using a highly solvatomorphic porous organic cage molecule, CC1. We use this method to rationalise the fact that the predicted global energy minimum structure for CC1 is never observed from solvent crystallisation. We also explain the formation of three different solvatomorphs of CC1 from three structurally-similar chlorinated solvents. Calculated solvent stabilisation energies are found to correlate with experimental results from thermogravimetric analysis, suggesting a future computational framework for a priori materials design that includes solvation effects.

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Computational Modelling of Solvent Effects in a Prolific Solvatomorphic Porous Organic Cage_manuscript - Accepted Manuscript
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Accepted/In Press date: 22 March 2018
e-pub ahead of print date: 16 April 2018
Published date: 16 April 2018

Identifiers

Local EPrints ID: 419225
URI: http://eprints.soton.ac.uk/id/eprint/419225
DOI: doi:10.1039/C8FD00031J
ISSN: 1359-6640
PURE UUID: f1ef709c-6c9b-439b-b13d-bf8563dab017
ORCID for Graeme M. Day: ORCID iD orcid.org/0000-0001-8396-2771

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Date deposited: 09 Apr 2018 16:30
Last modified: 16 Mar 2024 06:25

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Contributors

Author: David P. Mcmahon
Author: Andrew Stephenson
Author: Samantha Y. Chong
Author: Marc A. Little
Author: James T.A. Jones
Author: Andrew I. Cooper
Author: Graeme M. Day ORCID iD

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