With the coming of the “green” and “wearable” era, the superior flexibility and high
biocompatibility accompanied by superb sensing abilities of nanocellulosic materials have …

Cellulose fibrils are the structural backbone of plants and, if carefully liberated from biomass,
a promising building block for a bio-based society. The mechanism of the mechanical …

The catalytic conversion of lignocellulose‐derived carbohydrates, particularly cellulose, into
5‐hydroxymethylfurfural (HMF), holds significant potential as a crucial step in the …

Carbohydrates are crucial in food as essential biomolecules, serving as natural
components, ingredients, or additives. Carbohydrates have numerous applications in the …

Cellulose nanocrystals (CNCs) are bio-based building blocks for sustainable advanced
materials with prospective applications in polymer composites, emulsions, electronics …

As cellulose is the main polysaccharide in biomass, its degradation into glucose is a major
undertaking in research concerning biofuels and bio-based platform chemicals. Here, we …

Designing and develo** modern techniques to facilitate the extraction and modification of
functional properties of biopolymers are key motivations among researchers. As a low-cost …

Hydrolysis of cellulose to glucose is one of the most important processes for the conversion
of biomass to fuels and chemicals. Besides cellulose, lignin is the third of the main …

The morphology of cellulose nanomaterials plays a crucial role in determining their
properties and expanding their application possibilities. Among these bionanomaterials …