Sorption properties of polymeric beads and films containing tetraoctyl diglycolamide towards europium (III) ions

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Abstract

The article presents results obtained during investigation of Eu(III) ion removal from aqueous solutions using triacetate cellulose films and styrene-divinylbenzene copolymer beads containing tetraoctyl diglycolamide (TODGA). A simple method for manufacturing films containing up to 50 % w/w TODGA is provided. Solution acidity effect on the removal rate of Eu(III) ions was studied. Maximum removal of Eu(III) ions was obtained in nitric acid solutions with concentrations of 1-6 mol/l. Additionally, increase in the europium removal rate is also observed at pH > 2 for beads and in the pH range of 2 to 4 for films. In the former case increase in the removal rate is explained by increase in the nitrate ion concentration in the solution and Eu(NO3)3(TODGA)3 complex formation, and in the latter case – by decrease in TODGA protonation rate with рН growth. Observed trends indicate a high similarity in surface sorption mechanisms between the materials studied. Sorption equilibrium of Eu(III) ions onto the styrene-divinylbenzene copolymer beads impregnated with TODGA is adequately fitted to Langmuir sorption isotherm. The maximum sorption capacity of this material for Eu(III) removal from solutions with nitric acid concentration of 1 mol/l is 7.4 mg/g. It has been found that the maximum removal rate of Eu(III) ions by the triacetate cellulose films is achieved for TODGA content in the films ≥ 40 % w/w. The possibility of selective europium sorption from natural water using both beads and films is shown. Although cations present in natural water do not bind to sorbents studied, there is still slight deterioration in sorption properties when moving from model solutions to natural water. Complete desorption of Eu(III) ions from the film surface is achieved by washing three times with an EDTA solution, рН = 6.8. Prepared films can be reused for Eu(III) ion removal.
含四辛基二甘醇酰胺聚合物珠和膜对铕(III)离子的吸附性能
本文介绍了用含四辛二醇酰胺(TODGA)的三乙酸纤维素膜和苯乙烯-二乙烯基苯共聚物珠去除水溶液中Eu(III)离子的研究结果。提供了一种制造含有高达50% w/w TODGA的薄膜的简单方法。研究了溶液酸度对Eu(III)离子去除率的影响。在浓度为1 ~ 6 mol/l的硝酸溶液中,对Eu(III)离子的去除率最大。此外,在pH为bbbb2时,珠子的铕去除率也有所增加,在pH为2至4时,薄膜的铕去除率也有所增加。前一种情况下,去除率的增加是由于溶液中硝酸盐离子浓度的增加和Eu(NO3)3(TODGA)3络合物的形成,后一种情况是由于TODGA质子化速率随着рН的增长而降低。观察到的趋势表明,所研究的材料之间的表面吸附机制高度相似。铕(III)离子在TODGA浸渍的苯乙烯-二乙烯苯共聚物珠上的吸附平衡完全符合Langmuir吸附等温线。在硝酸浓度为1 mol/l的溶液中,该材料对Eu(III)的最大吸附量为7.4 mg/g。研究发现,当膜中TODGA含量≥40% w/w时,三乙酸纤维素膜对Eu(III)离子的去除率最大。显示了利用珠和膜从天然水中选择性吸附铕的可能性。尽管天然水中存在的阳离子不与所研究的吸附剂结合,但当从模型溶液转移到天然水中时,吸附性能仍略有下降。用EDTA溶液(рН = 6.8)洗涤三次,可以使膜表面的Eu(III)离子完全脱附。制备的膜可重复用于去除Eu(III)离子。
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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