Synergistic complexation of metal ions with bifunctional interpenetrating polymer networks

A.A. Kriger , B.A. Moyer , S.D. Alexandratos
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引用次数: 6

Abstract

A vinylpyridine/acrylic acid bifunctional interpenetrating polymer network (IPN) has been synthesized and evaluated for application in metal ion separations. Monofunctional vinylpyridine and acrylic acid IPNs were also synthesized and differences between the distribution coefficients of the three systems were used as an indication of whether an enhanced (i.e., synergistic) complexation of metal ions was occurring in the bifunctional polymer. Important effects attributable to the combined action of the two functionalities in the same polymer are observed. Complexation of Eu(III), a hard Lewis acid, by the bifunctional polymer is inhibited by hydrogen bonding between the two ligands. Borderline Lewis acids are complexed with high efficiency and evidence for a synergistic effect is presented.

金属离子与双功能互穿聚合物网络的协同络合作用
合成了乙烯吡啶/丙烯酸双功能互穿聚合物网络(IPN),并对其在金属离子分离中的应用进行了评价。还合成了单功能的乙烯吡啶和丙烯酸ipn,并利用三种体系的分布系数之间的差异作为双功能聚合物中金属离子是否发生增强(即协同)络合的指示。在同一聚合物中观察到两种官能团的联合作用所产生的重要效应。双功能聚合物对硬路易斯酸Eu(III)的络合作用被两个配体之间的氢键所抑制。边界路易斯酸络合与高效率和证据的协同效应提出。
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