Acrylonitrile (AN) monomer was directly grafted onto gray cotton yarn using a KMnO 4 -HNO 3 redox system by a chemical initiation technique. The major factors affecting polymerization of AN, such as KMnO 4 , nitric acid, and AN concentration as well as the reaction time and temperature of the polymerization, were studied. The water absorbency of grafted fibers depends strongly on their posttreatment. Saponification of AN-g-cotton with a hot sodium hydroxide solution developed superabsorbency. Absorbency with distilled water and a saline solution (0.9% NaCl) was studied. Grafting cellulose with AN using a KMnO 4 /nitric acid redox system proceeds by a free-radical mechanism. Use of cotton in the gray form as a starting material rather than a bleached one helps in the better deposition of MnO 2 with subsequent acceleration of the grafting reaction, resulting in better whiteness of the grafted products. The enhancement in the whiteness index could be interpreted in terms of the oxidation of natural coloring matter, which happens to be the objective of the bleaching process. Grafting of AN onto gray cotton results in the elimination of several preparatory treatments including the conventional bleaching operation, ultimately reducing the water consumption as well as minimizing the unwanted effluent generation. The work has the potential of promoting cost-effective and environmental friendly technologies and techniques.
Development of nanostructured textile material using sustainable finishing route and to evaluate its performance in the areas like wound management is challenging task. Stable and eco-friendly o/w nanoemulsion of tetrahydroxy curcumin derivative was developed by using high pressure homogenization method. The stable nanoemulsion for the selected drug was developed and evaluated for appearance, particle size distribution (100-300 nm), zeta potential (− 30.1 to − 31.1 mV) and drug content (80-83.3%). Nanoemulsion containing antimicrobial drug were impregnated on the textile material by exhaust methods using β-cyclodextrin and polycarboxylic acid as a crosslinking agent. Treated textile material is evaluated for its antimicrobial activity against standard antimicrobial strip using both AATCC 147 and AATCC 100, treated samples shows positive results against both positive and negative bacteria. Current eco-friendly technique would be innovative step towards development of medical textile for wound care applications.
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