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Nanocellulose Film Properties Tunable by Controlling Degree of Fibrillation of TEMPO-Oxidized Cellulose
Author(s) -
Moe Wakabayashi,
Shuji Fujisawa,
Tsuguyuki Saito,
Akira Isogai
Publication year - 2020
Publication title -
frontiers in chemistry
Language(s) - English
Resource type - Journals
SCImago Journal Rank - 1.027
H-Index - 52
ISSN - 2296-2646
DOI - 10.3389/fchem.2020.00037
Subject(s) - materials science , cellulose , nanocellulose , slurry , composite material , filtration (mathematics) , dispersion (optics) , turbidity , chemical engineering , kraft paper , physics , optics , statistics , oceanography , geology , mathematics , engineering
A fibrous 2,2,6,6-tetramethylpiperidine-1-oxyl (TEMPO)-oxidized wood cellulose/water slurry was disintegrated with a magnetic stirrer or high-pressure homogenizer under various conditions to prepare TEMPO-oxidized cellulose (TOC)/water dispersions with different degrees of fibrillation. The turbidity value of the as-prepared dispersion was used as a measure of the degree of nanofibrillation of the fibrous TOC slurry in water. The fibrillated TOC/water dispersions with low degrees of fibrillation had cellulose nanonetwork (CNNeW) structures consisting of TOC nanofibrils (TOCNs), unfibrillated TOC fibers, and fibril bundles. The original TOC/water slurry and partly fibrillated TOC/water dispersions with low degrees of fibrillation were converted to a sheet and films, respectively, in a short time by membrane filtration, and they had low bulk densities and high porosities. Membrane filtration of an almost completely nanofibrillated TOC/water or TOCN dispersion took a long time, but the as-prepared TOCN films had the highest light transparency, tensile strength, Young's modulus, and work of fracture. The oxygen permeabilities of the films at 23°C and 50% relative humidity were as low as 1–2 ml μm m −2 day −1 kPa −1 among the films prepared from the fibrillated TOC/water dispersions with a wide turbidity range of 0.01–0.45. Therefore, TEMPO-oxidized CNNeW films with the versatile optical, porous, and mechanical properties but similarly low oxygen permeabilities can be prepared by controlling the degree of fibrillation of the TOC/water slurry ( Graphical Abstract ).

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