@article{article_588866, title={Plasma Grafting of Reactive Β-Cyclodextrin Onto the Cotton Fabric}, journal={Tekstil ve Mühendis}, volume={26}, pages={209–214}, year={2019}, author={Nazı, Malihe and Malek, Reza Mohammad Ali and Kotek, Richard}, keywords={Siklodekstrin İtakonat,Pamuklu Kumaşlar,Plazma Teknolojisi,Aşılama}, abstract={<p>-Cyclodextrin (β-CD) is capable of forming inclusion complexes, but it cannot form a direct covalent bond with textile </p> <p>materials, hence some cyclodextrin derivatives have been synthesized with reactive groups to allow them to chemically bind to </p> <p>various substrates. In this research, the modified β-CD with itaconic acid (CDI) was grafted on to the cotton fabric by applying plasma </p> <p>technologies. Two methods of plasma techniques, atmospheric pressure plasma reactor (APPJ) and atmospheric pressure glow </p> <p>discharge (APGD) were applied for the graft treatments. The grafting copolymerization of the reactive cyclodextrin (CDI or </p> <p>CDI/Acrylic Acid) on the surface of cotton fabric was studied and the performance (accessibility of cyclodextrin cavities for </p> <p>molecular encapsulation) of -cyclodextrin fixed onto the surface cotton was evaluated. The effect of each plasma treatment method </p> <p>on the characteristics of the cellulosic fabric was investigated. The results showed that plasma activation was occurred on the surface </p> <p>of cellulose and free radicals can easily react to CDI/AA without any degradation on the polymeric chains of cellulose. The presence </p> <p>of anchored CD nanoparticles on the surface of the fibers was demonstrated by using SEM as well as the ability of the attached CDs </p> <p>to form inclusion complexes. </p>}, number={114}, publisher={Tekstil Mühendisleri Odası}