Metal ion separations in polyethylene glycol-based aqueous biphasic systems: correlation of partitioning behavior with available thermodynamic hydration data.

Journal of chromatography. B, Biomedical applications Pub Date : 1993-04-01 DOI:10.1080/01496399308018023

R. Rogers, A. Bond, C. Bauer, J. Zhang, S. Griffin

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引用次数: 105

Abstract

Solvent extraction utilizing an oil-water mixture (e.g., chloroform-water) and a suitable complexant, is a proven technology for the selective removal and recovery of metal ions from aqueous solutions. Aqueous biphasic systems (ABS), formed by mixing certain inorganic salts and water-soluble polymers, or by mixing two dissimilar water-soluble polymers, have been studied for more than 40 years for the gentle, non-denaturing separation of fragile biomolecules, yet ABS have been virtually ignored as a possible extraction technology for metal ions. In this report we review our metal ion partitioning work and discuss the three major types of partitioning: (1) those rare instances that the metal ion species present in a given solution partitions to the PEG-rich phase without an extractant; (2) the use of halide salts which produce a metal anion complex that partitions to the PEG-rich phase; and (3) the use of a water-soluble extractant which distributes to the PEG-rich phase. In addition, we correlate the partitioning behavior we observed with available thermodynamic data for metal ions and their complexes.

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金属离子分离在聚乙二醇为基础的水双相体系:分配行为的相关性与可用的热力学水化数据。

溶剂萃取利用油水混合物(如氯仿-水)和合适的络合剂，是一种经过验证的从水溶液中选择性去除和回收金属离子的技术。水双相体系(ABS)是由某些无机盐和水溶性聚合物混合形成的，或由两种不同的水溶性聚合物混合形成的，已经研究了40多年，用于温和、非变性地分离脆弱的生物分子，但ABS作为一种可能的金属离子提取技术几乎被忽视了。在这篇报告中，我们回顾了我们的金属离子分配工作，并讨论了三种主要类型的分配:(1)在没有萃取剂的情况下，给定溶液中存在的金属离子种类分配到富peg相的罕见情况;(2)使用卤化物盐，卤化物盐产生金属阴离子络合物，分解成富含peg的相;(3)使用分配到富peg相的水溶性萃取剂。此外，我们将我们观察到的分配行为与金属离子及其配合物的可用热力学数据联系起来。

本文章由计算机程序翻译，如有差异，请以英文原文为准。

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Journal of chromatography. B, Biomedical applications

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