Title
Synergistic reinforcement: harnessing nanocellulose for robust double network hydrogels
Authors
RALUCA IOANA BARON, ANDREEA LAURA CHIBAC-SCUTARU, GABRIELA BILIUTA and SERGIU COSERI

Received Dedicated to the memory of Acad. Bogdan C. Simionescu (1948 – 2024)
Published Volume 59 Issue 7-8 July-August
Keywords cellulose, nanocellulose, double network, hydrogel, nanofibers, flexible electronics

Abstract
Double-network (DN) hydrogels combine two interpenetrating polymer networks with contrasting roles: a brittle, rigid primary network that dissipates energy through sacrificial bond breakage, and a flexible secondary network that maintains integrity. This architecture imparts exceptional toughness, stretchability, and crack resistance, making DN hydrogels valuable for biomedical, soft robotics, and energy-storage applications. Incorporating natural polymers, particularly nanostructured biopolymers like nanocellulose, enhances biocompatibility, sustainability, and tunability. This review outlines DN hydrogel design principles and nanocellulose structures, focusing on their role in polyacrylamide (PAM) and polyvinyl alcohol (PVA) matrices. Emphasis is placed on how cellulose nanofibers (CNF) improve mechanical strength, stability, and dynamic response through entanglement, hydrogen bonding, and nanoconfinement. The review concludes with challenges and future opportunities for nanocellulose-based DN hydrogels in multifunctional and sustainable material design.