In the cellulose scientific community, hydrogen bonding is often used as the explanation for
a large variety of phenomena and properties related to cellulose and cellulose based …

Nanocelluloses (NC) are nature-based sustainable biomaterials, which not only possess
cellulosic properties but also have the important hallmarks of nanomaterials, such as large …

Common natural and synthetic high‐strength materials (such as rubber, plastics, ceramics,
and metals) undergo the occurrence of poor deformability. Achieving high strength and large …

This review considers the most recent developments in supramolecular and supraparticle
structures obtained from natural, renewable biopolymers as well as their disassembly and …

The family of two‐dimensional (2D) metal carbides and nitrides, known as MXenes, are
among the most promising electrode materials for supercapacitors thanks to their high metal …

Triboelectric nanogenerators (TENGs), as a new energy conversion device in self-powered
sensing devices, have been used at extreme environmental conditions, which poses great …

Nanocelluloses are anisotropic nanoparticles of semicrystalline assemblies of glucan
polymers. They have great potential as renewable building blocks in the materials platform …

Stretchable, self-healing and conductive hydrogels have attracted much attention for
wearable strain sensors, which are highly required in health monitoring, human-machine …

Recent developments in the area of plant‐based hydrogels are introduced, especially those
derived from wood as a widely available, multiscale, and hierarchical source of …

Tunable dynamic networks of cellulose nanofibrils (CNFs) are utilized to prepare high‐
performance polymer gel electrolytes. By swelling an anisotropically dewatered, but never …