Redko Y. Development of scientific basis of nanotechnology of creating of textile materials with conductive and magnetic properties

In the thesis, as a result of the theoretical and experimental researches, the scientific basis of the important problem of textile materials science – the creation of textile materials with electrical conductive and magnetic properties with the use of a set of technological methods and techniques in the establishment of physico-chemical laws of nanotechnologies that provide for the possibility of controlling the receipt and modification of textile materials, which include functional components with dimensions less than 100 nm, allowing Textile materials acquire fundamentally new properties. To understand the physicochemical regularities of the creation of textile materials with conductive properties, the theoretical principles in the form of theories describing the processes of sorption of nanoparticles with the formation of monoshares (the equation is similar to the Langmuir equation) and the multilayer coating with an increase in the number of deposited layers, have been developed, influencing the possibility of creating a layer nanostructure on textile material due to self-organization (application of the BET model for describing the process of multilayer reverse heterocoagulates th nanoparticles on the substrate surface – textile material). The work presents the introduction of nanotechnologies in the production of textile materials with conductive and magnetic properties. Research in the chosen direction has allowed to develop effective methods of creating progressive textiles, as well as to establish the patterns of connection between the indicators of different properties of the developed textile materials.