对疏水性低共熔溶剂作为从水溶液中萃取有机溶质的替代溶剂的系统评价。

Systematic evaluation of hydrophobic deep-melting eutectics as alternative solvents for the extraction of organic solutes from aqueous solution.

作者信息

Kaul Michael J, Qadah Diab, Mandella Victoria, Dietz Mark L

机构信息

Department of Chemistry and Biochemistry, University of Wisconsin-Milwaukee Milwaukee WI 53211 USA

Department of Chemistry, Birzeit University Birzeit, P. O. Box 14, Ramallah, West Bank Palestine.

出版信息

RSC Adv. 2019 May 21;9(28):15798-15804. doi: 10.1039/c9ra01596e. eCollection 2019 May 20.

DOI:10.1039/c9ra01596e

PMID:35521383

原文链接:https://pmc.ncbi.nlm.nih.gov/articles/PMC9064306/

Abstract

The partitioning of a number of organic compounds, including a series of -alkanols and various simple, substituted benzene derivatives, between several hydrophobic (, water-immiscible) deep eutectic solvents (HDESs) and water has been examined. The extent of extraction is shown to vary with the charge state of the molecule and the composition of the eutectic. In addition, the HDES-water distribution of a given solute is found to be directly proportional to (but typically less than) its partitioning in the octanol-water system, consistent with a significant role for solute hydrophobicity in the observed extraction behavior. Comparison of solute extraction into an HDES to that observed for other "unconventional" solvents (, room-temperature ionic liquids and a soybean-derived oil) shows that hydrophobic deep eutectic solvents provide comparable or superior extraction efficiency.

摘要

研究了多种有机化合物（包括一系列链烷醇和各种简单的取代苯衍生物）在几种疏水性（与水不混溶）的深共熔溶剂（HDESs）和水之间的分配情况。结果表明，萃取程度随分子的电荷状态和共熔物的组成而变化。此外，发现给定溶质在HDES - 水体系中的分布与它在正辛醇 - 水体系中的分配成正比（但通常小于），这与溶质疏水性在观察到的萃取行为中起重要作用一致。将溶质萃取到HDES中的情况与在其他“非常规”溶剂（如室温离子液体和大豆衍生油）中观察到的情况进行比较，结果表明疏水性深共熔溶剂具有相当或更高的萃取效率。

https://cdn.ncbi.nlm.nih.gov/pmc/blobs/ac70/9064306/0aa845f52c09/c9ra01596e-f1.jpg

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对疏水性低共熔溶剂作为从水溶液中萃取有机溶质的替代溶剂的系统评价。

Systematic evaluation of hydrophobic deep-melting eutectics as alternative solvents for the extraction of organic solutes from aqueous solution.

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