The research of double layer IR-pyrolyzed acrylonitrile nanopolymer with the crystal structures of iron and copper

One of the widely demanded polymeric material is polyacrylonitrile. For modifying the chemical properties of polyacrylonitrile and generating nanostructures the mechanism of self-organization of structure during the interaction of the polymer with the infrared radiation was proposed. As a result, the so-called pyrolyzed polyacrylonitrile (PPAN), which has a graphite-like layered structure. Now pyrolyzed polyacrylonitrile (PPAN) is used in microelectronics, vacuum electronics to create displays where PPAN is used for the manufacture of the cathode as a cheaper material with higher current at lower voltages and vacuum, compared to met als. PPAN ha s pr omis ing prop erties for a pplications in optoelectronics. Complex properties of nitrile groups of polyacrylonitrile are used for the manufacture of nanocomposites (PPAN, Fe/PPAN and (Au/Co)/PPAN). Pyr olyzed polyacrylonitrile has the most stable electrical properties (R