Redispersion of dried plant nanocellulose: A review

IF 12.5 1区化学 Q1 CHEMISTRY, APPLIED

Carbohydrate Polymers Pub Date : 2022-10-15 DOI:10.1016/j.carbpol.2022.119830

Yang Xu , Yongjian Xu , Hao Chen , Minlan Gao , Xiaopeng Yue , Yonghao Ni

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引用次数: 15

Abstract

Nanocellulose has undergone substantial development as a high value-added cellulose product with broad applications. Dried products are advantageous to decrease transportation costs. However, dried nanocellulose has redispersion challenges when rewetting. In this work, drying techniques, factors affecting redispersibility, and strategies improving the nanocellulose redispersibility are comprehensively reviewed. Hydrogen bonds of nanocellulose are unavoidably developed during drying, leading to inferior redispersibility of dried nanocellulose, even hornification. Drying processes of nanocellulose are discussed first. Then, factors affecting redispersibility are discussed. Following that, strategies improving the nanocellulose redispersibility are analyzed and their advantages and disadvantages are highlighted. Surface charge modification and steric hindrance concept are two main pathways to overcome the redispersion challenge, which are mainly carried out by chemical modification, additive incorporation and non-cellulosic component preservation. Despite several advancements having been achieved, new approaches for enhancing the nanocellulose redispersibility are still required to promote the industrial-scale applications of nanocellulose in various domains.

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植物纳米纤维素的再分散研究进展

纳米纤维素作为一种具有广泛应用价值的高附加值纤维素产品，已经取得了长足的发展。干燥产品有利于降低运输成本。然而，干燥的纳米纤维素在再润湿时有再分散的挑战。本文对纳米纤维素的干燥技术、影响再分散性的因素以及提高纳米纤维素再分散性的策略进行了综述。纳米纤维素在干燥过程中不可避免地形成氢键，导致干燥后的纳米纤维素再分散性较差，甚至发生角化。首先讨论了纳米纤维素的干燥工艺。然后讨论了影响再分散性的因素。分析了提高纳米纤维素再分散性的策略，并指出了各种策略的优缺点。表面电荷修饰和位阻概念是克服再分散挑战的两种主要途径，主要通过化学修饰、添加剂掺入和非纤维素组分保存来实现。尽管已经取得了一些进展，但为了促进纳米纤维素在各个领域的工业规模应用，仍然需要新的方法来提高纳米纤维素的再分散性。

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来源期刊

Carbohydrate Polymers 化学-高分子科学

CiteScore

22.40

自引率

8.00%

发文量

1286

审稿时长

47 days

期刊介绍： Carbohydrate Polymers stands as a prominent journal in the glycoscience field, dedicated to exploring and harnessing the potential of polysaccharides with applications spanning bioenergy, bioplastics, biomaterials, biorefining, chemistry, drug delivery, food, health, nanotechnology, packaging, paper, pharmaceuticals, medicine, oil recovery, textiles, tissue engineering, wood, and various aspects of glycoscience. The journal emphasizes the central role of well-characterized carbohydrate polymers, highlighting their significance as the primary focus rather than a peripheral topic. Each paper must prominently feature at least one named carbohydrate polymer, evident in both citation and title, with a commitment to innovative research that advances scientific knowledge.