FIELD: chemistry.
SUBSTANCE: invention relates to production of new structured hybrid metal-polymer nanocomposite materials based on electroactive polymers with a polyconjugation system and magnetic nanoparticles of Co and can be used in systems of magnetic information recording, organic electronics and electrorheology, medicine, when creating electromagnetic screens, contrasting materials for magnetic resonance tomography, microelectromechanical systems, rechargeable batteries, sensors and biosensors, supercapacitors, electrocatalysts, solar batteries, displays and other electrochemical devices. Invention describes a metal-polymer dispersed magnetic material containing a polymer matrix, in which are dispersed cobalt nanoparticles, in which polymer matrix consists of polyphenoxazine with content of cobalt nanoparticles of 1÷50 wt% and a method of producing metal-polymer dispersed magnetic material by infrared heating of a precursor obtained from a polymer matrix and a cobalt salt, wherein to obtain material precursor is produced by combined dissolution of polyphenoxazine and cobalt salt in an organic solvent with subsequent removal of solvent at temperature 60-100 °C, and infrared heating is performed in an argon atmosphere at temperature of 200-700 °C for 2-30 minutes.
EFFECT: disclosed is a structured hybrid metal-polymer nanocomposite material.
7 cl, 1 tbl, 13 dwg, 23 ex
