https://www.selleckchem.com/products/dir-cy7-dic18.html Chitosan has been termed as the most well-known among biopolymers, receiving widespread attention from researchers in various fields mainly, agriculture, food, and health. Chitosan is a deacetylated derivative of chitin, mainly isolated from waste shells of the phylum Arthropoda after their consumption as food. Chitosan molecules can be easily modified for adsorption and slow release of plant growth regulators, herbicides, pesticides, and fertilizers, etc. Chitosan as a carrier and control release matrix that offers many benefits including; protection of biomolecules from harsh environmental conditions such as pH, light, temperatures and prolonged release of active ingredients from its matrix consequently protecting the plant's cells from the hazardous effects of burst release. In the current review, tends to discuss the recent advances in the area of chitosan application as a control release system. Also, future recommendations will be made in light of current advancements and major gaps. This paper reported a facile strategy to fabricate ionically crosslinked supramolecular film, in which an in situ formed chitosan ionic film was produced by post-crosslinking the chitosan chains using negatively charged anion polyoxometalate. The incorporation of polyoxometalate into the chitosan ionic system accelerated the crosslinked degree, as evidenced by an increase in surface wrinkle via scanning electron microscopy. Interestingly, the resultant supramolecular film realized the combination of prominent antimicrobial effect and excellent biocompatibility, which was considered to have enormous application potential range from biomedical to environmental science. Enormous masses of keratinous wastes are annually accumulated in the environment as byproducts of poultry processing and agricultural wastes. Keratin is a recalcitrant fibrous protein, which represents the major constituent of various keratin-rich wastes, which r