Influence of pretreatment and mechanical nanofibrillation energy on properties of nanofibers from Aspen cellulose

C Negro,P Mutjé,E Fuente,Q Tarrés,M Delgado-Aguilar,A Balea,M Àngels Pèlach,A Blanco

doi:10.1007/s10570-021-04109-w

C Negro, P Mutjé + Show 6 more

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https://doi.org/10.1007/s10570-021-04109-w

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Journal: Cellulose	Publication Date: Aug 5, 2021
Citations: 23	License type: open-access

Affiliation: Universidad Complutense de Madrid, University of Girona

Abstract

The characteristics of cellulose nanofibers (CNFs) depend on many factors such as the raw material, type and intensity of the pre-treatment, and type and severity of the mechanical defibrillation process. The relationship among factors is complex but crucial in determining the final, fit-for-use CNF properties. This study aims to find the relationship between the CNF properties morphology, aspect ratio, nanofibrillation yield, transmittance and cationic demand, and the production process using bleached Aspen thermomechanical pulp as the raw material. Five different types of pretreatments were carried out and five different defibrillation intensities of high-pressure homogenization were evaluated. Pretreatments were: PFI refining at 20,000 revolutions, enzymatic hydrolysis with 80 and 240 g of enzyme per ton of dry pulp and TEMPO (2,2,6,6-tetramethylpiperidine-1-oxyl)–mediated oxidation with 5 and 15 mmol of NaClO per gram of dry pulp. From the twenty-five different procedures evaluated, results show that both the pretreatment and the severity of the high-pressure homogenization determined both the fibrillation yield and the CNF morphology. Moreover, the main properties of CNFs (cationic demand, yield, transmittance and aspect ratio) can be estimated from the carboxylic content of the pretreated pulp, which would facilitate the control of the CNF production and their tuning according to the production needs.

Highlights

Different products based on nanocellulose, such as cellulose nanofibers (CNFs), hydrogels, aerogels, filaments, nanopapers and nanowhiskers, have been developed during last decades
All the chemical reagents used for enzymatic hydrolysis, TEMPO-mediated oxidation pretreatment and CNF characterization were supplied by Sigma Aldrich (Spain)
The maximum oxidation they reached for bleached kraft softwood pulp (BKSP) was around 1300 leq-g/g, with 10 mmol of NaClO per gram of dry pulp. They obtained a pulp with 1000 leqg/g of carboxylic groups when using 5 mmol of NaClO per gram of dry pulp. These results are similar to those obtained from this TEMPO oxidation of bleached Aspen thermomechanical pulp (TMP), this is a hardwood pulp

Summary

Introduction

Different products based on nanocellulose, such as cellulose nanofibers (CNFs), hydrogels, aerogels, filaments, nanopapers and nanowhiskers, have been developed during last decades. The potential increases as the development of new low environmental impact fractionation processes and new lignocellulosic nanomaterials, which does not require lignin removal, are developed (Ewulonu et al 2019; Miao et al 2020; Yu et al 2020; Liu et al 2021). This contributes to increase of interest in using alternative wood plants, for example Aspen, which is not widely used for pulp and paper production, but that could be concerning for nanocelluloses and lignonanocelluloses production

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