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The influence of the crystal sponge framework on guest molecule conformation

The influence of the crystal sponge framework on guest molecule conformation
The influence of the crystal sponge framework on guest molecule conformation

The crystalline sponge (CS) method has become an important technique for structural elucidation of compounds that are challenging to crystallise. The impact of the CS environment on guest molecule conformations has not been systematically studied. We present a computational investigation of the conformations of organic molecules of varying flexibility in a set of experimentally determined CS structures, comparing them to gas phase conformers and, where available, pure and co-crystal structures. Via solid state and molecular density functional theory calculations, we quantify the total relative energy, conformational energy, and intramolecular strain of guest molecules, as well as framework strain. Our results show that while CS structures induce distortion in guest geometries (total relative energies up to 41 kJ mol −1), they generally adopt low-energy conformations, often within 2 kJ mol −1 of the global energy minimum. Intramolecular strain in CS structures is often lower than in conventional crystal structures, suggesting a more neutral packing environment where molecules are closer to their favoured isolated-molecule geometries. We also observe that multiple guests can influence each other's geometries, even in the absence of direct guest-guest interactions. These findings provide a quantification of conformational distortion that can form the basis for interpreting molecular geometries obtained from CS structures.

1466-8033
1491-1502
Soper, Eleanor M.
df2ed032-162c-4a88-9880-f6e6ea941edf
Coles, Simon J.
3116f58b-c30c-48cf-bdd5-397d1c1fecf8
Day, Graeme M.
e3be79ba-ad12-4461-b735-74d5c4355636
Soper, Eleanor M.
df2ed032-162c-4a88-9880-f6e6ea941edf
Coles, Simon J.
3116f58b-c30c-48cf-bdd5-397d1c1fecf8
Day, Graeme M.
e3be79ba-ad12-4461-b735-74d5c4355636

Soper, Eleanor M., Coles, Simon J. and Day, Graeme M. (2025) The influence of the crystal sponge framework on guest molecule conformation. CrystEngComm, 27 (10), 1491-1502. (doi:10.1039/D4CE00699B).

Record type: Article

Abstract

The crystalline sponge (CS) method has become an important technique for structural elucidation of compounds that are challenging to crystallise. The impact of the CS environment on guest molecule conformations has not been systematically studied. We present a computational investigation of the conformations of organic molecules of varying flexibility in a set of experimentally determined CS structures, comparing them to gas phase conformers and, where available, pure and co-crystal structures. Via solid state and molecular density functional theory calculations, we quantify the total relative energy, conformational energy, and intramolecular strain of guest molecules, as well as framework strain. Our results show that while CS structures induce distortion in guest geometries (total relative energies up to 41 kJ mol −1), they generally adopt low-energy conformations, often within 2 kJ mol −1 of the global energy minimum. Intramolecular strain in CS structures is often lower than in conventional crystal structures, suggesting a more neutral packing environment where molecules are closer to their favoured isolated-molecule geometries. We also observe that multiple guests can influence each other's geometries, even in the absence of direct guest-guest interactions. These findings provide a quantification of conformational distortion that can form the basis for interpreting molecular geometries obtained from CS structures.

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Accepted/In Press date: 28 January 2025
e-pub ahead of print date: 31 January 2025
Published date: 31 January 2025
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Identifiers

Local EPrints ID: 498750
URI: http://eprints.soton.ac.uk/id/eprint/498750
DOI: doi:10.1039/D4CE00699B
ISSN: 1466-8033
PURE UUID: ab7b8cc1-45b5-46bc-ad61-888071800100
ORCID for Simon J. Coles: ORCID iD orcid.org/0000-0001-8414-9272
ORCID for Graeme M. Day: ORCID iD orcid.org/0000-0001-8396-2771

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Date deposited: 26 Feb 2025 17:42
Last modified: 22 Aug 2025 02:07

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Contributors

Author: Eleanor M. Soper
Author: Simon J. Coles ORCID iD
Author: Graeme M. Day ORCID iD

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