一系列四芳基鏻基介孔离子液体的结构修饰对其热稳定性、熔点和离子相互作用的影响

The effect of structural modifications on the thermal stability, melting points and ion interactions for a series of tetraaryl-phosphonium-based mesothermal ionic liquids.

作者信息

Cassity Cody A, Siu Benjamin, Soltani Mohammad, McGeehee Jimmy L, Strickland Katie J, Vo Matt, Salter E Alan, Stenson Alexandra C, Wierzbicki Andrzej, West Kevin N, Rabideau Brooks D, Davis James H

机构信息

Department of Chemistry, University of South Alabama, Mobile, Alabama 36688, USA.

出版信息

Phys Chem Chem Phys. 2017 Dec 6;19(47):31560-31571. doi: 10.1039/c7cp06278h.

DOI:10.1039/c7cp06278h

PMID:29165458

Abstract

A family of mesothermal ionic liquids comprised of tetraarylphosphonium cations and the bis(trifluoromethanesulfonyl)amidate anion are shown to be materials of exceptional thermal stability, enduring (without decomposition) heating in air at 300 °C for three months. It is further established that three specific structural elements - phenoxy, phenacyl, and phenyl sulfonyl - can be present in the cation structures without compromising their thermal stability, and that their incorporation has specific impacts on the melting points of the salts. Most importantly, it is shown that the ability of such a structural component to lower a salt melting point is tied to its ability to lower cation-cation repulsions in the material.

摘要

由四芳基鏻阳离子和双（三氟甲磺酰）亚胺阴离子组成的一类中温离子液体被证明是具有卓越热稳定性的材料，能够在空气中于300°C下持续加热三个月而不分解。进一步确定，阳离子结构中可以存在三种特定的结构元素——苯氧基、苯甲酰基和苯磺酰基，而不会损害其热稳定性，并且它们的引入对盐的熔点有特定影响。最重要的是，结果表明，这种结构成分降低盐熔点的能力与其降低材料中阳离子-阳离子排斥力的能力相关。

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一系列四芳基鏻基介孔离子液体的结构修饰对其热稳定性、熔点和离子相互作用的影响

The effect of structural modifications on the thermal stability, melting points and ion interactions for a series of tetraaryl-phosphonium-based mesothermal ionic liquids.

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