用 Chelex-100（阴离子交换）填料柱从水介质中吸附 90Y3+ 和 90Sr2+ 并进行色谱分离

IF 1.5 4区化学 Q3 CHEMISTRY, ANALYTICAL

International Journal of Analytical Chemistry Pub Date : 2024-05-13 DOI:10.1155/2024/6232381

Mohammad S. El-Shahawi, Hassan Alwael, Abdulaziz A. Alsibaai, Abdelgany Hamza, Faisal K. Algethami, Fatmah M. Alshareef, Sanaa H. El-Khouly, Neven Eweda

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引用次数: 0

摘要

人们越来越需要从共存的 90Sr 中分离出 90Y 载体，以生产出放射性药物所需的高纯度 90Y。因此，我们对含有二乙烯三胺五乙酸（DTPA）、乙二胺四乙酸（EDTA）、乙酸、柠檬酸或氯化钠的水溶液中的 Y3+ 和 Sr2+ 在 Chelex-100（阴离子交换）固体吸附剂上的吸附曲线进行了严格研究，以开发一种高效、低成本的方法，从 Sr2+ 离子（1.0 × 10-5 M）中选择性地分离 Y3+。批量实验结果表明，Chelex-100（阴离子交换剂）对醋酸水溶液中的 Y3+ 进行了相对化学萃取（98 ± 5.4%），而对 Sr2+ 没有吸附作用。因此，在 pH 值为 1-2 的含醋酸的 Y3+ 和 Sr2+ 离子水溶液中，以 2 mL min-1 的流速通过 Chelex-100 吸附剂填料柱，建立了 Y3+ 与母体 90Sr2+ 的选择性分离。Y3+ 物种被定量保留，而 Sr2+ 离子未被吸附，通过吸附剂填料柱时未被萃取。然后以 1.0 mL min-1 的流速用 HNO3（1.0 M）从吸附剂填料柱中回收被吸附的 Y3+ 离子。提出了一种双重萃取机制，包括与 "弱碱阴离子交换器 "和 "溶剂萃取 "有关的 Y3+ 以 (YCl6)3- 的形式吸收，以及吸附剂对 Y3+ 的额外 "表面吸附"。通过测量洗脱液中回收的 90Y3+ 的放射性化学性（99.2 ± 2 1%）、放射性核素纯度和延迟因子（= 10.0 ± 0.1 cm），验证了所建立的方法。最后，吸附剂填料柱还具有很高的稳定性，可重复使用 2-3 个周期，其吸收 Y3+ 的效率和相对化学回收率不会下降（±5%）。此外，还提供了一份拟议流程表，描述了使用螯合 Chelex 100（阴离子交换）填料柱从 90Sr2+ 中分离 90Y3+ 的分析程序。

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Sorption Characteristics and Chromatographic Separation of 90Y3+ from 90Sr2+ from Aqueous Media by Chelex-100 (Anion Ion Exchange) Packed Column

There is growing demand for separation of ⁹⁰Y carrier free from ⁹⁰Sr coexisting to produce high purity ⁹⁰Y essential for radiopharmaceutical uses. Thus, in this context the sorption profiles of Y³⁺ and Sr²⁺ from aqueous solutions containing diethylenetriaminepenta acetic acid (DTPA), ethylenediaminetetra-acetic acid (EDTA), acetic acid, citric acid, or NaCl onto Chelex-100 (anion ion exchange) solid sorbent were critically studied for developing an efficient and low-cost methodology for selective separation of Y³⁺ from Sr²⁺ ions (1.0 × 10⁻⁵ M). Batch experiments displayed relative chemical extraction percentage (98 ± 5.4%) of Y³⁺ from aqueous acetic acid solution onto Chelex-100 (anion ion exchanger), whereas Sr²⁺ species showed no sorption. Hence, a selective separation of Y³⁺ from its parent ⁹⁰Sr²⁺ has been established based upon percolation of the aqueous solution of Y³⁺ and Sr²⁺ ions containing acetic acid at pH 1-2 through Chelex-100 sorbent packed column at a 2 mL min⁻¹ flow rate. Y³⁺ species were retained quantitatively while Sr²⁺ ions were not sorbed and passed through the sorbent packed column without extraction. The sorbed Y³⁺ species were then recovered from the sorbent packed column with HNO₃ (1.0 M) at a 1.0 mL min⁻¹ flow rate. A dual extraction mechanism comprising absorption associated to “weak-base anion exchanger” and “solvent extraction” of Y³⁺ as (YCl₆)³⁻ and an extra part for “surface adsorption” of Y³⁺ by the sorbent is proposed. The established method was validated by measuring the radiochemical (99.2 ± 2 1%), radionuclide purity and retardation factor ( = 10.0 ± 0.1 cm) of ⁹⁰Y³⁺ recovered in the eluate. Ultimately, the sorbent packed column also presented high stability for reusing 2-3 cycles without drop in its efficiency (±5%) towards Y³⁺ uptake and relative chemical recovery. A proposed flow sheet describing the analytical procedures for the separation of ⁹⁰Y³⁺ from ⁹⁰Sr²⁺ using chelating Chelex 100 (anion exchange) packed column is also included.

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来源期刊

International Journal of Analytical Chemistry CHEMISTRY, ANALYTICAL-

CiteScore

3.10

自引率

5.60%

发文量

117

期刊介绍： International Journal of Analytical Chemistry publishes original research articles that report new experimental results and methods, especially in relation to important analytes, difficult matrices, and topical samples. Investigations may be fundamental, or else related to specific applications; examples being biological, environmental and food testing, and analysis in chemical synthesis and materials processing. As well as original research, the International Journal of Analytical Chemistry also publishes focused review articles that examine the state of the art, identify emerging trends, and suggest future directions for developing fields.