Synthesis of cellulose graft ionic liquid using silanization reaction

Science and Technology Development Journal Pub Date : 2019-06-13 DOI:10.32508/STDJ.V22I2.1150

U. D. Thach, T. N. Do, N. Do, Minh Huy Do

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引用次数: 3

Abstract

Introduction: Ionic liquids (ILs) have attached many attentions due to their interesting physicochemical properties. However, ionic liquids have several disadvantages including high viscosity, difficult to purify, separate and recycle, and expensive. Therefore, supported ionic liquids (SIL) have been developed to overcome these problems. SIL based on cellulose material was conventionally synthesized by silanization reaction between ionic liquid trialkoxyl silane and hydroxyl groups on the surface of cellulose. However, low reactivity of cellulose hydroxyl groups causes the low efficiency of silanization reaction. With the aim to resolve these problems and improve the reactivity of cellulose silanization reaction, cellulose graft ionic liquid was synthesized and characterized. Methods: Cellulose graft ionic liquid (CL-IL) material was synthesized by silanization reaction. The influence of reaction condition such as IL/CL (w/w) ratio, base catalyst (NH3) and agent coupling tetraethyl orthosilicate (TEOS) on silanization reaction was investigated. The modified CL-IL materials were characterized using FT-IR, TGA, SEM. The ion exchange properties were evaluated via batch adsorption studies to evidence the efficiency of silanization reaction of cellulose. Results: The study indicated that adding TEOS with NH3 catalyst could significantly increase the number of imidazolium groups grafted on cellulose about 75% compared to the conventional approach. CL-IL material is an efficient anion exchange materials displaying fast kinetic adsorption and high capacity adsorption of MO up to 1.4 mmol g-1. Conclusion: High-efficiency of cellulose silanization was obtained by using coupling agent TEOS and base catalyst. Therefore, the silanization reaction can be used for synthesis divers of functional cellulose materials. This approach can be aimed for the design of cheaper and high-performance materials for catalysis, polymer composite and adsorption in water treatment and depollution of industrial wastewater.

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硅烷化反应合成纤维素接枝离子液体

离子液体以其独特的物理化学性质受到人们的广泛关注。然而，离子液体具有粘度高、提纯难、分离难、回收难、价格昂贵等缺点。因此，负载离子液体(SIL)的发展是为了克服这些问题。基于纤维素材料的SIL通常是由离子液体三烷氧基硅烷与纤维素表面羟基之间的硅烷化反应合成的。然而，纤维素羟基的低反应性导致硅烷化反应效率低。为了解决这些问题，提高纤维素硅烷化反应的反应活性，合成了纤维素接枝离子液体并对其进行了表征。方法:采用硅烷化反应合成纤维素接枝离子液体(CL-IL)材料。考察了反应条件(IL/CL (w/w)比、碱催化剂(NH3)和偶联剂正硅酸四乙酯(TEOS))对硅烷化反应的影响。利用FT-IR、TGA、SEM对改性后的CL-IL材料进行了表征。通过批量吸附研究评价了纤维素硅烷化反应的离子交换性能。结果:研究表明，与常规方法相比，在NH3催化剂上添加TEOS可使纤维素上接枝的咪唑基团数量显著增加约75%。CL-IL材料是一种高效的阴离子交换材料，对MO的吸附量高达1.4 mmol g-1。结论:用偶联剂TEOS和碱催化剂对纤维素进行硅烷化反应具有较高的效率。因此，硅烷化反应可用于合成多种功能纤维素材料。该方法可用于设计用于水处理和工业废水净化的催化、聚合物复合和吸附的廉价高性能材料。

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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Science and Technology Development Journal

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