Article | REF: NM3491 V2

Cellulose reinforced polymer nanocomposites

Author: Alain DUFRESNE

Publication date: March 10, 2023

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ABSTRACT

Among the uses of cellulose nanomaterials, polymeric nanocomposites are certainly the one with the strongest interest. This is related to the structural function of cellulose. With a high modulus and a large specific surface area, cellulose nanomaterials can significantly improve the mechanical properties of polymers. However, as for any nanomaterial, the homogeneous dispersion of these nanoparticles is difficult and presents a major challenge. This article describes the strategies for the processing of these nanocomposites described in the literature, as well as the properties of the obtained materials.

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AUTHOR

  • Alain DUFRESNE: Professor at Grenoble Polytechnic Institute - Doctorate in electronics from INSA Toulouse

 INTRODUCTION

The structural hierarchy of lignocellulosic fibers enables the extraction of nano-sized particles. These nanoparticles, known as "nanocellulose" or "cellulosic nanomaterials", essentially comprise mechanically produced cellulose nanofibrils (CNF – Cellulose NanoFibrils) and chemically produced cellulose nanocrystals (CNC – Cellulose NanoCrystals). Cellulose is the structural element of higher plants. It is therefore logical that the main application for cellulose nanoparticles is to exploit this property in the form of reinforcing elements for polymer nanocomposites. Numerous techniques, both experimental and theoretical, have been used to determine the Young's modulus of nanocellulosic materials . A wide range of values has been reported. However, the average modulus value is around 100 GPa for CNF and 130 GPa for CNC . These values are consistent and fully compatible with the development of high-performance nanocomposite materials. Specific modulus, i.e. the modulus normalized to the density of the material, is often used: taking into account the density of crystalline cellulose (1.5-1.6 g.cm -3 ), we find specific modulus values of the order of 65 J.g -1 and 85 J.g -1 for CNF and CNC respectively, values well above that of steel and of the same order of magnitude as that of Kevlar .

The use of nanocellulose as a "nanoadditive" in a polymer formulation not only improves the material's mechanical properties, but also its barrier properties or resistance to swelling. The introduction of cellulose nanomaterials into nanocomposite materials was identified as one of the four greatest breakthroughs since 2000 in the report "Nanotechnology Research Directions for Societal Needs in 2020"

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Cellulose-reinforced polymer nanocomposites