Cellulose nanofibrils manufactured by various methods with application as paper strength additives

Cellulose nanofibrils manufactured by various methods with application as paper strength additives

Abstract Recycled paper and some hardwood paper often display poorer mechanical properties, which hinder its practical applications and need to be addressed. In this work, cellulose nanofibrils (CNFs) obtained by a combined process of enzymatic hydrolysis and grinding (EG-CNFs), grinding and microfl...

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Main Authors: Jinsong Zeng, Zhanting Zeng, Zheng Cheng, Yu Wang, Xiaojun Wang, Bin Wang, Wenhua Gao
Format: Article
Language:English
Published: Nature Publishing Group 2021-06-01
Series:Scientific Reports
Online Access:https://doi.org/10.1038/s41598-021-91420-y
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spelling doaj-8fbf461cef924bdba5b131b218f165972021-06-13T11:39:12ZengNature Publishing GroupScientific Reports2045-23222021-06-0111111610.1038/s41598-021-91420-yCellulose nanofibrils manufactured by various methods with application as paper strength additivesJinsong Zeng0Zhanting Zeng1Zheng Cheng2Yu Wang3Xiaojun Wang4Bin Wang5Wenhua Gao6State Key Laboratory of Pulp and Paper Engineering, Plant Fiber Research Center, South China University of TechnologyState Key Laboratory of Pulp and Paper Engineering, Plant Fiber Research Center, South China University of TechnologyState Key Laboratory of Pulp and Paper Engineering, Plant Fiber Research Center, South China University of TechnologyChina Tobacco Guangdong Industrial Co. LtdState Key Laboratory of Pulp and Paper Engineering, Plant Fiber Research Center, South China University of TechnologyState Key Laboratory of Pulp and Paper Engineering, Plant Fiber Research Center, South China University of TechnologyState Key Laboratory of Pulp and Paper Engineering, Plant Fiber Research Center, South China University of TechnologyAbstract Recycled paper and some hardwood paper often display poorer mechanical properties, which hinder its practical applications and need to be addressed. In this work, cellulose nanofibrils (CNFs) obtained by a combined process of enzymatic hydrolysis and grinding (EG-CNFs), grinding and microfluidization (GH-CNFs) or TEMPO-mediated oxidation and grinding (TE-CNFs) were characterized by scanning electron microscopy (SEM) and atomic force microscopy (AFM). Moreover, CNFs were made into films on which some characterizations including X-ray diffraction (XRD), Fourier transform infrared spectroscopy (FTIR), and UV–Vis transmittance spectroscopy were implemented. Results showed that CNF fibrillation was promoted as times of passes increased in microfluidization, and CNFs pretreated by enzyme possessed shorter length. Crystallinity of CNFs was related to CNF manufacturing methods, while CNF films’ transparency was correlated to CNF diameter distributions. Moreover, CNFs were applied with different dosages on recycled and hardwood paper. Lengths of CNFs, strength of CNF network, and pulp properties were critical factors affecting the mechanical strength of CNFs-enhanced paper. GH-CNFs showed better strengthened effect on tensile strength of paper than TE-CNFs and EG-CNFs. The best overall improvement was achieved at GH-CNF10 dosage of 5.0 wt% on hardwood paper. The increment of tensile index, burst index, and folding endurance were 108.32%, 104.65%, and 600%, respectively. This work aims to find out the relationship between production methods and morphologies of CNFs and how the morphological characteristics of CNFs affecting the mechanical performance of paper when they are added as strength additives.https://doi.org/10.1038/s41598-021-91420-y
collection DOAJ
language English
format Article
sources DOAJ
author Jinsong Zeng
Zhanting Zeng
Zheng Cheng
Yu Wang
Xiaojun Wang
Bin Wang
Wenhua Gao
spellingShingle Jinsong Zeng
Zhanting Zeng
Zheng Cheng
Yu Wang
Xiaojun Wang
Bin Wang
Wenhua Gao
Cellulose nanofibrils manufactured by various methods with application as paper strength additives
Scientific Reports
author_facet Jinsong Zeng
Zhanting Zeng
Zheng Cheng
Yu Wang
Xiaojun Wang
Bin Wang
Wenhua Gao
author_sort Jinsong Zeng
title Cellulose nanofibrils manufactured by various methods with application as paper strength additives
title_short Cellulose nanofibrils manufactured by various methods with application as paper strength additives
title_full Cellulose nanofibrils manufactured by various methods with application as paper strength additives
title_fullStr Cellulose nanofibrils manufactured by various methods with application as paper strength additives
title_full_unstemmed Cellulose nanofibrils manufactured by various methods with application as paper strength additives
title_sort cellulose nanofibrils manufactured by various methods with application as paper strength additives
publisher Nature Publishing Group
series Scientific Reports
issn 2045-2322
publishDate 2021-06-01
description Abstract Recycled paper and some hardwood paper often display poorer mechanical properties, which hinder its practical applications and need to be addressed. In this work, cellulose nanofibrils (CNFs) obtained by a combined process of enzymatic hydrolysis and grinding (EG-CNFs), grinding and microfluidization (GH-CNFs) or TEMPO-mediated oxidation and grinding (TE-CNFs) were characterized by scanning electron microscopy (SEM) and atomic force microscopy (AFM). Moreover, CNFs were made into films on which some characterizations including X-ray diffraction (XRD), Fourier transform infrared spectroscopy (FTIR), and UV–Vis transmittance spectroscopy were implemented. Results showed that CNF fibrillation was promoted as times of passes increased in microfluidization, and CNFs pretreated by enzyme possessed shorter length. Crystallinity of CNFs was related to CNF manufacturing methods, while CNF films’ transparency was correlated to CNF diameter distributions. Moreover, CNFs were applied with different dosages on recycled and hardwood paper. Lengths of CNFs, strength of CNF network, and pulp properties were critical factors affecting the mechanical strength of CNFs-enhanced paper. GH-CNFs showed better strengthened effect on tensile strength of paper than TE-CNFs and EG-CNFs. The best overall improvement was achieved at GH-CNF10 dosage of 5.0 wt% on hardwood paper. The increment of tensile index, burst index, and folding endurance were 108.32%, 104.65%, and 600%, respectively. This work aims to find out the relationship between production methods and morphologies of CNFs and how the morphological characteristics of CNFs affecting the mechanical performance of paper when they are added as strength additives.
url https://doi.org/10.1038/s41598-021-91420-y
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