Dual Counterion Systems of Carboxylated Nanocellulose Films with Tunable Mechanical, Hydrophilic, and Gas-Barrier Properties.

Abstract

Aqueous dispersions of C6-carboxylated cellulose nanofibrils with sodium counterions (CNF-COONa) and CNFs with tetraethylammonium counterions (CNF-COONEt4) were mixed at various weight ratios. Transparent, flexible CNF-COONa/NEt4 films were prepared by casting and drying aqueous mixtures with various Na/NEt4 molar ratios as dual counterion systems. The film density, Young's modulus, and tensile strength decreased linearly with increasing molar ratio of the bulky NEt4 counterion. The film hydrophilicity was controlled by varying the Na/NEt4 molar ratio. The oxygen and water vapor permeabilities also increased with increasing molar ratio of bulky NEt4 counterions. The mechanical, hydrophilic, and gas-barrier properties were tuned by controlling the Na/NEt4 molar ratios of CNF films containing dual counterions. The results of model experiments using tetra( n-butyl)ammonium hydroxide indicated that the Na and quaternary alkylammonium counterions were homogeneously distributed among the carboxylated CNF elements in both dispersions and cast-dried films of the dual counterion systems.