SILICATES AS ALTERNATIVE PRETREATMENT FOR CELLULOSE PULP TO OBTAIN NANOFIBRILS FOR APPLICATION IN BIODEGRADABLE PACKAGING: A TECHNICAL REVIEW

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Adriano Reis Prazeres Mascarenhas
Mário Scatolino
Rafael Carvalho do Lago
https://orcid.org/0000-0002-8558-5217
Dayane Targino Medeiros
https://orcid.org/0000-0002-1255-572X
Felipe Gomes Batista
Carine Setter
Rafael Rodolfo de Melo
https://orcid.org/0000-0001-6846-2496
Maria Alice Martins
https://orcid.org/0000-0002-6416-6929
Gustavo Henrique Denzin Tonoli

Abstract

Background: The production of cellulose microfibrils/nanofibrils (CMF/CNF) has attracted increasing attention in recent decades due to their excellent barrier, mechanical, and surface chemistry properties. However, large-scale industrial production of CMF/CNF has been a major challenge due to their high energy consumption, limiting their application. In this context, in recent years many studies have focused on developing pre-treatments designed to facilitate the fibrillation of CMF/CNF by reducing energy consumption during their production. This review highlights the latest advances in the use of silicates as chemical pre-treatments for CMF/CNF production, covering the main aspects related to the effects of chemical modification on the production and the properties of materials for application in biodegradable packaging.


Results: Energy consumption reductions of up to 30% were achieved by pretreating cellulose pulps using silicates. In addition, the pre-treatments resulted in smaller CMF/CNF diameters and greater individualization of the nanofibrils. Studies evaluating the thermal stability, hydrophobicity, mechanical properties, and porosity of CMF/CNF pre-treated with silicates have reported promising results. The application of CMF/CNF pretreated with calcium and magnesium silicates in cardboard coating resulted in packaging with low water vapor permeability and high ductility.


Conclusion: Silicates interact well with cellulose surfaces, making them a promising material for the chemical pre-treatment of CMF/CNF. Furthermore, the modification by silicates could be an interesting strategy for expanding the use of CMF/CNF in the development of new products.

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