Cellulose is the richest renewable polymer source on the earth. TEMPO-mediated oxidized
cellulose nanofibers are deduced from enormously available wood biomass and …

Carbon nanotubes (CNTs) have been extensively studied as one of the most interesting
nanomaterials for over 25 years because they exhibit excellent mechanical, electrical …

The abundance of cellulose found in natural resources such as wood, and the wide
spectrum of structural diversity of cellulose nanomaterials in the form of micro‐nano‐sized …

Sustainable materials are key to the continual improvement of living standards on this planet
with minimal environmental impacts. Nanocellulose combines the fascinating features of …

Cellulose and tannin are both abundant and biodegradable natural polymers. This study
proposes a strategy to construct biohybrid films combining the characteristics of cationic …

The mechanical properties of pectin films enhanced with polyphenol-rich fruit extracts were
investigated. The scavenging and reducing activity of plant extracts incorporated into the …

In this work, we present a method to improve the mechanical properties of CNF films by
replacing the secondary hydrogen bonding in CNF films with glutaraldehyde (GA)-based …

Lignocellulosic nanofibrils (LCNF) are produced from a single source of unbleached,
oxidized wood fibers by serial disintegration, high‐pressure microfluidization, and …

Modern bioplastics and biocomposites frequently contain non-biodegradable or non-
sustainable components and require complex recycling routes. Sustainable materials …

Cellulose and its derivatives have evoked much attention in sensor technology as host-
matrices for conducting materials because of their versatility, renewability, and …