Title :
Studying Magneto-Induced Iodine Sorption at Dielectric Surface
Author :
Selemir, Victor D. ; Tatsenko, Olga M. ; Platonov, Vadim V. ; Filippov, Alexey V. ; Bychkova, Ekaterina A. ; Krivosheev, Sergey I. ; Shneerson, German A.
Author_Institution :
Sci. & Tech. Center of Phys., Russian Fed. Nucl. Center-All-Russian Res. Inst. of Exp. Phys., Nizhny Novgorod, Russia
Abstract :
The development of new sorbents and methods of their catalytic activity increase is an important task of nuclear energy and medicine. This paper presents the investigation results on the magnetic field effect on the iodine adsorption on the polyethylene, polycarbonate, and polystyrene surfaces. The revealed effect of the sorption property improvement by the dielectric surfaces in the magnetic fields opens new possibilities for efficiency increase of radioactive materials filters. The novel technology of medical polymer modification could be developed on the basis of magneto-induced sorption effect. The goal of this technology is to decrease biodegradation degree, acquire bactericidal and antiviral properties, increase cytoreduction, and purposefully change the mechanical characteristics.
Keywords :
adsorption; antibacterial activity; biomedical materials; dielectric materials; environmental degradation; iodine; polymers; I; antiviral properties; bactericidal properties; biodegradation degree; catalytic activity; cytoreduction; dielectric surface; iodine adsorption; magnetic field effect; magneto-induced iodine sorption; mechanical characteristics; medical polymer modification; nuclear energy; polycarbonate; polyethylene; polystyrene; radioactive materials filters; Chemicals; Educational institutions; Magnetic resonance imaging; Physics; Polyethylene; Surface topography; Surface treatment; Antiviral action; chemical reaction; iodine; magnetic field; sorption; sorption.;
Journal_Title :
Plasma Science, IEEE Transactions on
DOI :
10.1109/TPS.2014.2382634
