Functionalized cellulose nanofiber films as potential substitutes for Japanese paper

IF 6.2 Q1 CHEMISTRY, APPLIED

Carbohydrate Polymer Technologies and Applications Pub Date : 2024-09-24 DOI:10.1016/j.carpta.2024.100573

Ricardo Almeida , Ana Ramos , Verner Håkonsen , Thaddeus Maloney , José Gamelas

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引用次数: 0

Abstract

Japanese papers (JPs) are among the most common materials used for the restoration of historical papers. However, they have low transparency and may structure the paper surface. To overcome the limitations of JPs, in the present work films of cellulose nanofibers with and without lignin (LCNFs and CNFs, respectively) were explored. For this, chemically different LCNFs (carboxylated by TEMPO-mediated oxidation using variable oxidant amount and sulfated with deep eutectic solvent) and two reference CNFs were produced from Eucalyptus kraft pulps. Lignin slightly hindered the introduction of carboxyl groups into the cellulose structure, but did not affect the incorporation of sulfate groups. (L)CNFs gave films with better mechanical properties than those determined for three types of JP (tensile strength of 79–142 MPa (±11) vs 3.5–13.0 MPa (±0.4) and Young's modulus of 4900–5900 MPa (±300) vs 240–1800 MPa (±70)). Additionally, the (L)CNF films exhibited lower water vapor transmission rates (132–312 g.m⁻².day⁻¹) compared to the JPs (685–719 g.m⁻².day⁻¹), and a higher transparency (up to 89% and ≤82% for JPs). Except for the thermal stability, all properties studied favored (L)CNF films over JPs, indicating their strong potential for restoration/conservation applications. This systematic comparison between the properties of (L)CNF films and JPs has never been conducted before.

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作为日本纸潜在替代品的功能化纤维素纳米纤维薄膜

日本纸（JP）是修复历史纸张最常用的材料之一。然而，它们的透明度较低，而且可能会使纸张表面产生结构。为了克服日本纸的局限性，本研究探讨了含木质素和不含木质素的纤维素纳米纤维薄膜（分别为 LCNFs 和 CNFs）。为此，我们从桉树牛皮浆中制备了化学性质不同的 LCNFs（通过 TEMPO 介导的氧化作用，使用不同量的氧化剂进行羧化，并使用深共晶溶剂进行硫化）和两种参考 CNFs。木质素略微阻碍了纤维素结构中羧基的引入，但并不影响硫酸基团的加入。(与三种 JP 相比，(L)CNF 所制成的薄膜具有更好的机械性能（拉伸强度为 79-142 兆帕（±11）比 3.5-13.0 兆帕（±0.4），杨氏模量为 4900-5900 兆帕（±300）比 240-1800 兆帕（±70））。此外，(L)CNF 薄膜的水蒸气透过率（132-312 g.m-2.day-1）低于日本涂料（685-719 g.m-2.day-1），透明度更高（日本涂料高达 89%，而≤82%）。除热稳定性外，所研究的所有特性都表明，(L)CNF 薄膜都优于 JP，这表明它们在修复/保护应用方面具有很大的潜力。这种对（L）CNF 薄膜和 JP 的性能进行系统比较的做法以前从未有过。

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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来源期刊

Carbohydrate Polymer Technologies and Applications

CiteScore

8.70

自引率

0.00%

发文量