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Conformational trimorphism in an ionic cocrystal of hesperetin

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posted on 2023-04-26, 13:43 authored by Shasha JinShasha Jin, Molly M. Haskin, Yassin.H AndaloussiYassin.H Andaloussi, Ruiling Ouyang, Junbo Gong, Michael ZaworotkoMichael Zaworotko

We report the existence of conformational polymorphism in an ionic cocrystal (ICC) of the nutraceutical compound hesperetin (HES) in which its tetraethylammonium (TEA+) salt serves as a coformer. Three polymorphs, HESTEA-α, HESTEA-β and HESTEA-γ, were characterized by single-crystal X-ray diffraction (SCXRD). Each polymorph was found to be sustained by phenol···phenolate supramolecular heterosynthons that self-assemble with phenol···phenol supramolecular homosynthons into C32(7) H-bonded motifs. Conformational variability in HES moieties and different relative orientations of the H-bonded motifs resulted in distinct crystal packing patterns: HESTEA-α and HESTEA-β exhibit H-bonded sheets; HESTEA-γ is sustained by bilayers of H-bonded tapes. All three polymorphs were found to be stable upon exposure to humidity under accelerated stability conditions for 2 weeks. Under competitive slurry conditions, HESTEA-α was observed to transform to the β or γ forms. Solvent selection impacted the relationship between HESTEA-β (favored in EtOH) and HESTEA-γ (favored in MeOH). A mixture of the β and γ forms was found to be present following H2O slurry.

Funding

SSPC_Phase 2

Science Foundation Ireland

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Green Adsorbents for Clean Energy (GrACE)

Science Foundation Ireland

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History

Publication

Crystal Growth & Design 2022 22 (11), 6390-6397

Publisher

American Chemical Society

Department or School

  • Chemical Sciences

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