A molecular-design approach for selective sulfate separation from competitive acidic and alkaline aqueous media

IF 3.2 3区 工程技术 Q2 CHEMISTRY, PHYSICAL Molecular Systems Design & Engineering Pub Date : 2024-04-16 DOI:10.1039/D4ME00031E
Arghya Basu and Sandeep Kumar Dey
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Abstract

Selective and efficient removal of sulfate from aqueous solution having a high concentration of other competing ions is an important aspect of separation science technology and has attracted considerable attention from researchers to develop molecular systems to achieve this challenging goal. Selective sulfate separation from aqueous nuclear waste media with a high nitrate concentration and seawater with a high chloride concentration are the two main objectives to be accomplished along this line. Nuclear power plant-generated radioactive waste disposal and highly effective membrane-based seawater desalination processes require prior removal of corrosion-inducing hydrophilic sulfate ions from the aqueous media to avoid possible environmental risks and membrane blockage, respectively. Further, sulfate removal from highly acidic wastewater discharged from mining and metallurgical industrial operations needs to be seriously addressed to avoid irreversible damage to the aquatic environment. Therefore, to achieve selective sulfate separation from water, several hydrogen bond donor (HBD) macrocyclic and acyclic anion receptors having higher binding affinity for sulfate over other anions have been synthesized. The sulfate removal efficacy of anion receptors has been demonstrated by the industrially applicable liquid–liquid (solvent) extraction method and proof of concept technique involving the selective crystallization (precipitation) of a receptor–sulfate complex from aqueous solution. In this review, we provide the detailed development of sulfate-selective synthetic receptors and their application in effective sulfate separation from simulated wastewater media and seawater. Since the pioneering paper by Sessler and Moyer et al. (2007), significant progress has been made in this field, which needs to be thoroughly assessed and understood to deliver suitable chemical technology for selective sulfate separation.

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从竞争性酸性和碱性水介质中选择性分离硫酸盐的分子设计方法
从含有高浓度其他竞争离子的水溶液中选择性地、高效地去除硫酸盐是分离科学技术的一个重要方面,并吸引了研究人员的极大关注,以开发分子系统来实现这一具有挑战性的目标。从硝酸盐浓度较高的核废料水介质和氯离子浓度较高的海水中选择性分离硫酸盐是这一研究方向要实现的两个主要目标。核电站产生的放射性废料处理和高效的膜法海水淡化工艺要求事先从水介质中去除诱发腐蚀的亲水性硫酸根离子,以避免可能的环境风险和膜堵塞。此外,从采矿和冶金工业作业排放的高酸性废水中去除硫酸盐也需要认真对待,以避免对水环境造成不可逆转的破坏。因此,为了从水中选择性地分离硫酸盐,人们合成了几种氢键供体(HBD)大环和无环阴离子受体,它们与硫酸盐的结合亲和力高于其他阴离子。工业上适用的液-液(溶剂)萃取法以及从水溶液中选择性结晶(沉淀)受体-硫酸盐复合物的概念验证技术证明了阴离子受体去除硫酸盐的功效。在本综述中,我们详细介绍了硫酸盐选择性合成受体的开发及其在从模拟废水介质和海水中有效分离硫酸盐方面的应用。自 Sessler 和 Moyer 等人(2007 年)发表开创性论文以来,该领域已取得了重大进展,因此需要对其进行全面评估和了解,以便为选择性硫酸盐分离提供合适的化学技术。
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来源期刊
Molecular Systems Design & Engineering
Molecular Systems Design & Engineering Engineering-Biomedical Engineering
CiteScore
6.40
自引率
2.80%
发文量
144
期刊介绍: Molecular Systems Design & Engineering provides a hub for cutting-edge research into how understanding of molecular properties, behaviour and interactions can be used to design and assemble better materials, systems, and processes to achieve specific functions. These may have applications of technological significance and help address global challenges.
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Back cover Back cover Dual responsive fluorescence switching of organohydrogel towards base/acid† Back cover Graph-based networks for accurate prediction of ground and excited state molecular properties from minimal features†
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