Electrostatic co-assembly of pillar[n]pyridiniums and calix[4]arene in aqueous media

Kateryna Kravets; Mykola Kravets; Helena Butkiewicz; Sandra Kosiorek; Volodymyr Sashuk; Oksana Danylyuk

Journal ArticleOPEN ACCESS

Electrostatic co-assembly of pillar[n]pyridiniums and calix[4]arene in aqueous media

CrystEngComm (2022) 24(12) 2213-2216

DOI: 10.1039/d2ce00232a

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Abstract

Cationic pillar[n]pyridiniums and anionic p-sulfonatocalix[4]arene co-assemble into all-organic supersalts through encaging of the supercation units within/between the capsules that emerge from superanion pairs. The encapsulation occurs both in the solid state and in solution and allows the base-sensitive cationic pillar[n]pyridiniums to survive under otherwise destructive conditions. This property of supersalts makes them promising repositories for chemically vulnerable charged entities.

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Kravets, K., Kravets, M., Butkiewicz, H., Kosiorek, S., Sashuk, V., & Danylyuk, O. (2022). Electrostatic co-assembly of pillar[n]pyridiniums and calix[4]arene in aqueous media. CrystEngComm, 24(12), 2213–2216. https://doi.org/10.1039/d2ce00232a

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Electrostatic co-assembly of pillar[n]pyridiniums and calix[4]arene in aqueous media

Abstract

References Powered by Scopus

Classical electrostatics in biology and chemistry

Supramolecular chemistry of p -Sulfonatocalix[ n ]arenes and its biological applications

Metal sulfonatocalix[4,5]arene complexes: Bi-layers, capsules, spheres, tubular arrays and beyond

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Pillar[n]arene-calix[m]arene hybrid macrocyclic structures

Alexidine and Pentamidine Fold Inside the Bowl-shaped Cavity of p-Sulfonato-calix[4]arene

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