Improved recyclability of the superbase ionic liquid [MTBNH][AcO] used in the lyocell fiber spinning process

Textile Research Journal Pub Date : 2024-06-11 DOI:10.1177/00405175241258173

Michael Sturm, A. Roselli, Niklas von Weymarn, Birgit Kosan, Jussi Helminen, I. Kilpeläinen

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Abstract

In the research of new solvents for cellulose dissolution for textile fiber production, some ionic liquids offer high dissolving capacities making them attractive solvents for lyocell processes. One especially interesting group is superbase carboxylates. However, despite their excellent pulp dissolving abilities and good spinnability properties in a lyocell process, they have been lacking hydrolytic stability, which hinders their recyclability. In this article, a new type of superbase-based ionic liquid, [MTBNH][AcO], is aimed to provide higher hydrolytic stability than its structural relative predecessors. For evaluation of the hydrolysis behavior of [MTBNH][AcO], we have tested the ionic liquid in two sets of recycling experiments. The “blank-experiments” were applied to investigate hydrolytic behavior without the presence of pulp. These values were compared with the results from spinning trials with pulp. It was found that this new ionic liquid is not only more stable than its predecessor [MTBDH][AcO] in terms of hydrolysis but can also dissolve and spin cellulose at lower temperatures. The spun fibers were tested for their textile-physical properties and their performance was comparable to other lyocell fibers.

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提高用于莱赛尔纤维纺丝工艺的超级碱离子液体 [MTBNH][AcO]的可回收性

在研究用于纺织纤维生产的纤维素溶解新溶剂的过程中，一些离子液体具有很高的溶解能力，使其成为具有吸引力的溶胶。其中一个特别有趣的组别是超碱羧酸盐。然而，尽管超碱基羧酸盐在纤维素工艺中具有出色的纸浆溶解能力和良好的可纺性，但它们一直缺乏水解稳定性，这阻碍了它们的可回收性。本文旨在研究一种新型的超碱基离子液体--[MTBNH][AcO]，其水解稳定性要高于其结构相对的前代产品。为了评估[MTBNH][AcO]的水解行为，我们在两组循环实验中对该离子液体进行了测试。空白实验 "用于研究没有纸浆存在时的水解行为。这些数值与使用纸浆进行纺丝试验的结果进行了比较。结果发现，这种新型离子液体不仅比其前身 [MTBDH][AcO]在水解方面更加稳定，而且还能在较低温度下溶解和纺丝纤维素。对纺出的纤维进行了纺织物理性能测试，其性能与其他莱赛尔纤维相当。

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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Textile Research Journal

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