An overview of nanocrystalline cellulose: A brief review on experimental, make-up, chemical modification and applications

Cellulose are the most abundant nature on earth, cellulose particles (NCP) have increased dispersion abilities, higher crystallinity, high aspect ratio, developing specialized surfaces, stability to abrasive media, rising temperatures, and proteolytic enzymes. It is s an emerging renewable nanomaterial that holds promise in many different applications. In this NCC we focused on experimental techniques like resource, Modification of NCC cationic surface, Techniques for scanning electron microscopy, lase light diffraction techniques, preparation of CNs foam and liquid crystal film, ultrasound treatment, movie casting, the characteristic of an aqueous NCC suspension sonication. In nanocrystalline cellulose we studied deeply on application on NCC, Nanocrystalline cellulose has the potential to develop into a substantial class of renewable nanomaterials with a variety of practical uses because of its unique properties, NCC’s chemical functionalization improves its ability to dissolve in organic solvents, expanding the range of potential uses, The method for creating the iridescence color of NCC film described in this article may precisely adjust the required qualities without the use of chemicals. The main importance of this article is that we focused on drug delivery, one of the most intriguing research areas seems to be the development of drug delivery materials. Numerous studies into different drug delivery techniques, such as liposomes, micelles, and microgels, have been carried out, also including information about general aspect of nanocrystalline cellulose, depending on the source and hydrolysis conditions, a variety of morphologies, with brief studies of cellulose with nanocrystalline chemical modification, NCC’s structure indicates that it possesses a significant amount of hydroxyl groups on its surface that can be used in chemical processes.