Defying Decomposition: The Curious Case of Choline Chloride

20 April 2023, Version 1
This content is a preprint and has not undergone peer review at the time of posting.

Abstract

Chemists are exploring deep eutectic solvents (DESs) as alternatives to conventional solvents to meet modern sustainability, health, and safety requirements.[1–3] DESs incorporate renewable solids in task-specific liquids through large melting point depressions.[3] Yet, DES design is complicated by complex molecular interactions and a lack of comprehensive and reliable property databases.[3–6] Even measuring the melting properties of pure DES components can be challenging, as they often decompose before melting.[7–9] Here we overcame the decomposition of a quintessential DES constituent, choline chloride (ChCl). We measured its enthalpy of fusion (13.8 ± 3.0 kJ·mol−1) and melting point (687±9 K) by fast scanning calorimetry (FSC) combined with micro-XRD and high-speed optical microscopy. Our thermodynamically coherent fusion properties identify ChCl as an ionic plastic crystal[10] and demonstrate negative deviations from ideal mixing for ChCl— contradicting the conclusions based on previously assumed fusion properties.[5,7,11] We hypothesise that the plastic crystal nature of ammonium salts is at the basis of their resilience to melting when pure or mixed with other components. Our results thus pave the way for ionic plastic crystal-based DESs, liquid at accessible temperatures and over a broad range of compositions.

Keywords

deep eutectic solvents
fusion properties
choline chloride
fast scanning calorimetry
thermal decomposition
synchrotron XRD

Supplementary materials

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Supplementary Information
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A detailed description of sample preparation and handling, the experimental methodology, supporting data, literature data, and a thermodynamic analysis of the impact of the new accurate fusion properties for choline chloride.
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Supporting videos
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Video S1–S8: The obtained μ-XRD results were animated to obtain an interactive overview of the Bragg-peaks with the temperature program. Video S9–S12: The images obtained from the high-speed camera were combined with the temperature response of the FSC to obtain an interactive overview of the particle morphology with time and temperature.
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