Synthesis and characterization of CNC/CNF/rGO composite films for advanced functional applications

Ramezani, Ghazaleh, Stiharu, Ion, van de Ven, Theo G. M., Ramezani, Hossein et Nerguizian, Vahé. 2026. « Synthesis and characterization of CNC/CNF/rGO composite films for advanced functional applications ». Micromachines, vol. 17, nº 3.

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Résumé

Developing advanced functional materials requires the synergistic integration of nanoscale reinforcements with tailored properties. In this work, composite films of cellulose nanocrystals (CNCs), cellulose nanofibrils (CNFs), and reduced graphene oxide (rGO) were synthesized using a combination of solution casting, high shear homogenization, vacuum filtration, and environmentally friendly chemical reduction. The resulting CNC/CNF/rGO films exhibited a robust hierarchical structure with strong interfacial interactions, enabling exceptional mechanical properties, specifically a tensile strength of 215 MPa and a Young’s modulus of 18 GPa, alongside a continuous conductive network confirmed by frequency-independent electrical conductivity up to 30 kHz. Comprehensive dielectric characterization revealed frequency-dependent permittivity and low dielectric loss, aligning with Maxwell–Wagner theoretical predictions for heterogeneous composites. The composites also demonstrated thermal stability, with electrical conductivity increasing monotonically from 0 °C to 200 °C. These findings highlighted the CNC/CNF/rGO films’ suitability for applications in flexible electronics, electromagnetic shielding, packaging, and high-performance structural materials. Future optimization and modeling approaches, including fractional calculus, are recommended to further enhance multifunctionality and exploit the unique synergistic interactions intrinsic to nanocellulose–graphene oxide platforms.

Type de document:	Article publié dans une revue, révisé par les pairs
Chercheur(-euse):	Chercheur(-euse) Nerguizian, Vahé
Affiliation:	Génie électrique
Date de dépôt:	17 avr. 2026 20:38
Dernière modification:	22 avr. 2026 20:34
URI:	https://espace2.etsmtl.ca/id/eprint/33620

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