Vol. 11, no.3, 2019
РусскийEnglish
NANOSYSTEMS
SPECTRAL AND CONDUCTIVE PROPERTIES OF FILM HETEROSTRUCTURES BASED ON FULLERENE-CONTAINING MATERIAL AND 4-METHYLPHENYLHYDRAZONE N-ISOAMYLISATINE
Alexey N. Gusev, Alim S. Mazinov, Andrey S. Tyutyunik, Vladimir S. Gurchenko
V.I. Vernadsky Crimean Federal University, https://cfuv.ru/
Simferopol 295007, Russian Federation
E-mail: galex0330@rambler.ru, mazinovas@cfuv.ru, real-warez@mail.ru, gurchenko_v@mail.ru.
Received 22.11.2019, peer reviewed 29.11.2019, accepted 02.11.2019
Abstract. The 4-methylphenylhydrazone N-isoamylisatin method consists of 4-methylphenylhydrazone and a diode heterostructure. The best method for producing, synthesizing, microscopy of carbon films and an organic precursor. The results of the successive x-ray phase analysis of the materials used are presented. Also, the optical spectra of isatins having short wavelength (420-500 nm) and long wavelength (850-900 nm) extrema giving absorption peaks at 3-3.1 eV and luminescence at 1.4 eV. The results of studies of IR spectroscopy of primary carbon films and an organic composite are obtained. The current-voltage characteristics of a thin-film heterostructure based on a fullerene-accessible material and an organic precursor with ITO-aluminum strapping are presented. It was shown that the experimental structures have rectifying diode characteristics with hysteresis of the forward branch of the I-V characteristic.
Keywords:organic heterostructure, thin-film structures, current-voltage characteristics, X-ray phase analysis, fullerene-containing material, hydrazone
PACS 61.48.+c, 61.66.Hq, 73.61.−r
RENSIT, 2019, 11(2):331-336 DOI: 10.17725/rensit.2019.11.331
Full-text electronic version of this article - web site http://en.rensit.ru/vypuski/article/297/11(3)331-336e.pdf