Cellulose nanocrystals (CNCs) are bio-based, high aspect ratio nanoparticles that are
industrially produced in tonne-per-day quantities across the globe. CNCs can be used to …

Bio-nanocomposites are bio-based polymers made up of two major components in which
one acts as a matrix called biopolymer (continuous phase) and second called as …

Thermal stability is a crucial property of materials, especially when they have a wide range
of thermally sensitive applications. Cellulose nanomaterials (CNMs) extracted from …

The most recent strategies available for upcycling agri‐food losses and waste (FLW) into
functional bioplastics and advanced materials are reviewed and the valorization of food …

Background Pickering emulsions stabilized by solid particles have captured a growing
interest recently due to their outstanding stability. Among various solid stabilizers, cellulose …

Background The development of nanomaterials with edible and biodegradable properties is
now an urgent need of food science and technology. The application of nanomaterials in the …

As the most abundant biopolymer on the earth, cellulose has recently gained significant
attention in the development of antibacterial biomaterials. Biodegradability, renewability …

Cellulose constitutes most of a plant's cell wall, and it is the most abundant renewable
polymer source on our planet. Given the hierarchical structure of cellulose, nanocellulose …

Lignocellulosic agricultural wastes are the most widely utilized resource for bioethanol
production due to several advantages. Removal of hemicellulose and lignin is a prerequired …

Abstract Development of new sources and isolation processes has recently enhanced the
production of cellulose in many different colloidal states. Even though cellulose is widely …