Nanocelluloses, such as cellulose nanofibers and nanocrystals, are sustainable nanomaterials that are generally extracted from natural raw materials in a top-down manner. These nanomaterials and their assemblies are facilitating new applications of biopolymers. However, creating nanostructures from conventional cellulosic materials including paper and cloth remains challenging. Herein, we report an approach for bottom-up nanostructuring of conventional microfibrous cellulose materials via a molecular self-assembly strategy. As a precursor cellulose material, paper was allowed to swell with aqueous phosphoric acid for the partial dissolution and hydrolysis of cellulose while maintaining its microfibrous structure. The generated cello-oligosaccharides in a dissolved state started to self-assemble upon adding water as a coagulant, resulting in nanospike-like assemblies on the microfiber surfaces. The resultant nanospiked papers were found to serve as a precursor for synthesizing silver nanoparticle-cellulose composites with bactericidal activities. Our findings promote the development of cellulose-based functional materials with nanostructures designed via molecular self-assembly.
Keywords: Bactericidal nanocomposites; Cello-oligosaccharides; Cellulose; Self-assembly; Silver nanoparticles.
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