Dynamic imidazolium phosphate@titanium dioxide ionogels as environmental pollutant removers†

IF 4.7 Q2 MATERIALS SCIENCE, MULTIDISCIPLINARY Materials Advances Pub Date : 2025-01-27 DOI:10.1039/D4MA01073F

Mohamed Boundor, Nadia Katir and Abdelkrim El Kadib

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Abstract

Phosphate-containing ionic liquids display interesting inherent properties including versatile chemical reactivity, thermal and hydrolytic stability and biological response. This contribution focuses on synthesizing diverse imidazolium dialkylphosphates through a simple method involving N-quaternization of 1-alkylimidazole with trialkylphosphate. The use of these building-blocks during sol–gel polymerization of titanium alkoxide affords novel imidazolium phosphate@TiO₂ hybrid ionogels. The highest affinity of phosphate towards titanium dioxide results in covalent functionalization of the two phases through stable P–O–Ti bridges, without compromising the molecular dynamic of the embedded ionic liquids. The cationic moiety can be fully exchanged as illustrated using Na⁺ and NH₄⁺ providing access to ionomaterials with adjustable properties. The beneficial effect of the as-prepared dynamic hybrid ionogels was clearly demonstrated by their superior efficiency in removing representative cationic dyes, pharmaceutical pollutants, and metal ions compared to unmodified, native TiO₂.

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动态咪唑phosphate@titanium二氧化氧离子凝胶作为环境污染物去除剂†

含磷酸盐离子液体显示出有趣的固有特性，包括多种化学反应性、热稳定性和水解稳定性以及生物反应。这篇文章的重点是通过一种简单的方法合成不同的咪唑二烷基磷酸盐，包括1-烷基咪唑与三烷基磷酸盐的n -季铵化。在醇氧钛的溶胶-凝胶聚合过程中使用这些构建块提供了新型咪唑phosphate@TiO2杂化离子凝胶。磷酸盐对二氧化钛的最高亲和力导致两相通过稳定的P-O-Ti桥实现共价功能化，而不影响所嵌入离子液体的分子动力学。阳离子部分可以充分交换，如使用Na+和NH4+所示，从而获得具有可调节性质的离子材料。与未修饰的天然TiO2相比，制备的动态杂化离子凝胶在去除代表性阳离子染料、药物污染物和金属离子方面的效率更高，这清楚地证明了其有益的效果。

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