期刊
ACS SUSTAINABLE CHEMISTRY & ENGINEERING
卷 9, 期 35, 页码 11970-11980出版社
AMER CHEMICAL SOC
DOI: 10.1021/acssuschemeng.1c04375
关键词
solvation interactions; separations; green solvents; sustainable chemistry; eutectic mixtures; extractions; catalysis; organic synthesis
资金
- U.S. Department of Energy, Office of Basic Energy Sciences, Division of Chemical Sciences, Geosciences, and Biosciences, through the Ames Laboratory
- U.S. Department of Energy [DE-AC0207CH11358]
This study utilized inverse gas chromatography to investigate the solvation characteristics of choline chloride and acetate-based DESs, revealing that hydrogen bond acidity plays a dominant role in all DESs, with the position of hydroxyl functional groups in HBDs affecting solvation interactions. Choline acetate-based DESs exhibited lower dipolarity and stronger hydrogen bond basicity and dispersive-type interactions compared to choline chloride DESs. The developed solvation models could predict the performance of choline chloride-based DESs in various applications.
Choline chloride-based deep eutectic solvents (DESs) have gained widespread recognition as green solvents in catalysis and separation science as their designer properties permit solvation properties to be modulated by the choice of the hydrogen bond donor (HBD) as well as its molar ratio. Despite being one of the most popular classes of DESs, very little is currently understood regarding how their solvation characteristics differ among themselves as well as from other classes of DESs. Previous studies have shown that the catalytic activity, extraction efficiency, and solubilities of natural compounds can be influenced by the type of choline salt and HBD, but no study has systematically related these parameters with its solvation properties. In this study, inverse gas chromatography was employed for the first time to study the individual solvation characteristics of a diverse range of choline chloride and acetate-based DESs composed of amides, diols, organic acids, and carbohydrates. Hydrogen bond acidity was found to be a dominant interaction for all DESs, especially those composed of organic acid HBDs. DESs composed of isomers of butane diol and hexane diol as HBDs exhibited higher hydrogen bond basicity and dispersive-type interactions compared to those composed of urea, acetamide, and organic acids with the position of the hydroxyl functional group influencing their solvation interactions. Choline acetate-based DESs exhibited lower dipolarity and stronger hydrogen bond basicity and dispersive-type interactions compared to choline chloride DESs. The solvation models developed in this study were used to interpret and explain DES behavior in previously reported studies involving catalysis, organic synthesis, and extractions demonstrating that the measured solute-solvent interactions can serve to predict the performance of choline chloride-based DESs when used in various applications.
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