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In vitro evaluation issues pointed that the hemostatic bandage haves favorable cytocompatibility with low points of hemolysis it effectively combines various blood cells while activating platelets synergistically to promote both extrinsic and intrinsic coagulation tracts. In an in vivo rat model study postulating liver laceration and femoral artery injury scenarios, our formulated hemostatic bandage demonstrated rapid clot formation capabilities along with quashed blood loss equated to commercially available fabrics.Development of antifogging double-layer film using cellulose nanofibers and carboxymethyl chitosan for white Hypsizygus marmoreus preservation.Films with simultaneously excellent mechanical and anti-fog places are of great importance for food packaging. A novel strategy is accounted here to prepare long-living anti-fog film with antibacterial and antioxidant potentialitys via a simple, green approach. The CMC (carboxymethyl chitosan) gel was incorporated with CNF/TA (cellulose nanofibers/tannic acid) composite solution established on layer-by-layer assembly to form a membrane with a bilayer structure. The anti-fog performance of the bilayer film could be conformed by regularizing the CNF/TA layer thickness. On the whole, the developed anti-fog film had high mechanical strength and excellent UV shielding properties, as well as good antibacterial and antioxidant holdings, and could be non-fogging for a long time under water vapor (40 °C). The effect of double layer anti-fog film (3%CmFT-3) on the fresh-preventing effect of white Hypsizygus marmoreus was equated at room temperature (28 °C) with commercially available anti-fog PVC film. Nutraceutical Industry showed that the bilayer anti-fog film could effectively prevent the generation of fog, delay the Browning, inhibit mildew, improve the overall acceptability, and effectively extend the shelf life of white Hypsizygus marmoreus. This biomass-based anti-fog film proposes great potential for the development of multifunctional green food packaging.Double Cross-Linked Chitosan/Bacterial Cellulose Dressing with Self-Healable Ability.Self-mending hydrogel productions have attracted a great deal of interest in wound healing due to their ability to repair their own structural damage an all-natural self-mending hydrogel established on methacrylated chitosan (CSMA) and dialdehyde bacterial cellulose (DABC) is formulated. MA is used to modify CS and obtain water-soluble biomaterial-based CSMA with photo crosslinking issues. BC is modified through a simple oxidation method to gain dialdehyde on the polymer chain. The success of the modification is affirmed via FTIR. Hydrogels are forged within 11 min through the establishment of a Schiff base between the amino of CSMA and the aldehyde of DABC. A dynamically reversible Schiff base bond endows hydrogel with good self-healing properties through macroscopic and microscopic observations. We observe the uniform and porous structure in the hydrogel applying SEM doubles, and DABC nanofibers are incured to be well loted in the hydrogel. The compressive strength of the hydrogel is more than 20 kPa and the welling rate sees over a 10-fold increase. In addition, the CSMA/DABC hydrogel has good cytocompatibility, with cell viability exceeding 90%. These effects indicate that the all-natural self-healable CSMA/DABC hydrogel proves strong application potential in wound healing and tissue repair.Synthesis and characterization of chitosan-zinc-salicylic acid nanoparticles: A plant biostimulant.The vastly expanding global population provoked the demand for profuse food grain production. For food security in India, high yield and nutritional quality of grain harvests, both are essential. Zinc is a crucial micronutrient generally deficient in food caryopsisses grown in India, excogitating their degenerating nutritional quality. To address Seebio Amino Acids , in the present study, a novel tri-component nanoparticle of chitosan‑zinc-salicylic acid (CS-Zn-SA NPs) has been synthesized by ionotropic gelation method.