Non-Globular Organic Ionic Plastic Crystal Containing a Crown-Ether Moiety – Tuning Its Behaviour Using Sodium Salts

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Abstract

Organic ionic plastic crystals (OIPCs) are a class of soft materials showing positional order while still allowing orientational freedom. Due to their motional freedom in the solid state, they possess plasticity, non-flammability and high ionic conductivity. OIPC behavior is typically exhibited by ‘simple’ globular molecules allowing molecular rotation, whereas the interactions that govern the formation of OIPC phases in complex non-globular molecules are less understood. To better understand these interactions, a new family of non-globular OIPCs containing a 15-crown-5 ether moiety was synthetized and characterized. The 15C5BA molecule prepared does not exhibit the sought-after behavior because of its non-globular nature and strong intermolecular H-bonds that restrict orientational motion. However, the OIPC behavior was successfully obtained through complexation of the crown-ether moiety with sodium salts containing chaotropic anions. Those anions weaken the interactions between the molecules, allowing rotational freedom and tuning of the thermal and morphological properties of the OIPC.

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Casimiro, A., Lugger, J., Lub, J., & Nijmeijer, K. (2022). Non-Globular Organic Ionic Plastic Crystal Containing a Crown-Ether Moiety – Tuning Its Behaviour Using Sodium Salts. ChemPhysChem, 23(15). https://doi.org/10.1002/cphc.202200258

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