Volume 1, Issue 2, December 2015, Page: 5-8
Spectral Characteristics of CdS Polymer Composites
Kurbanov M. A., Institute of Physics, Azerbaijan National Academy of Sciences, Baku, H.Javid av.33
Aliyeva S. X., Institute of Physics, Azerbaijan National Academy of Sciences, Baku, H.Javid av.33
Received: Sep. 15, 2015;       Accepted: Oct. 28, 2015;       Published: Oct. 29, 2015
DOI: 10.11648/j.ajn.20150102.11      View  3439      Downloads  168
Abstract
Most of scientists were interested composite materials which are products of nanotechnology. Speaking of composite materials, chemical composition and structure of two or more different phase of consolidation is understood. From composite materials of research polymeric composition the materials got on the basis of matrix and then yet more. At the present work, have been investigated spectral characteristics, load line DC volt-ampere characteristics of polymer composites CdS and the spectral distribution photosensitivity.
Keywords
The Polymeric Dielectrics, Polymer Composites, Load Line Volt-Ampere Characteristics, Spectral Characteristics, Photolithography, Spectral Distribution of Photosensitivity
To cite this article
Kurbanov M. A., Aliyeva S. X., Spectral Characteristics of CdS Polymer Composites, American Journal of Nanosciences. Vol. 1, No. 2, 2015, pp. 5-8. doi: 10.11648/j.ajn.20150102.11
Reference
[1]
N. A. Safarov, S. X. Aliyeva. Azerbaijan Journal of Physics. Volume XX, №3, section: Az.
[2]
Ciardelli F., Tsushida E., Woehrle D. Macromolecule - Metal complexes. Berlin; Heidelberq, 1976.
[3]
Alexandrova L. N., Sochilin V. A., Gerasimov G. N., Kardash I. E. “POLIMEX-93 International Symposium on Polymers” November. Mexico, 1993.P.150.
[4]
Zagorski V. V., Ivashko S. V., Bochenkov V. E., Sergeev G. B. //Nanostructured Materials. 1999.12.P.863.
[5]
Gerasimov G. N., Sochilin V. A., Chvalun S. N. et al. // Macromol. Chem. And Physics. 1996.197.P.1387.
[6]
Alexandrova L., Sansores E., Martinez E. et al. // Polymer. 2001.42.P.273.
[7]
Gerasimov G. N., Dolotov S. M., Abkin A. D. // Rad. Phys. Chem. 1980.15.P.405.
[8]
Nikolaeva E. V., Ozerin S. A., Grigoriev A. E. et. al //Mater.Sci. Eng. C. 1999.P 304
[9]
Mansueto E. S., Wight Ch. A. // J. Amer. Chem. Soc. 1989.111.P.1900.
[10]
Charle K. P., Frank F., Schulze W. //Ber. Bunsenges. Phys. Chem. 1984.88.P.350.
[11]
Trakhtenberg L. I., Axelrod E., Gerasimov G. N. et al. // Sci. Isr. Technol. Adv. 1999.1.p.34
[12]
Trakhtenberg L. I., Gerasimov G. N., Grigoriev E. I. et al. // Studies in Surface Science and Catalysis / Ed. B. Delmon and J. T. Yates., Amsterdam. 2000. 130.12th ICC, Part B.P. 941.
[13]
Bochenkov V. E., Stephan N., Bremher L. et al. // Abstr. of The Ninth Inter. Conf. on Organized Molecular Films. 2000.1.P.172.
[14]
G. H. Brown. Photochromism, New York. Willey. 1971.
[15]
L. Blinov, V. Chirginov. Electrooptical Effects in Liquid Crystal Materials., New York. Springer. 1984
[16]
Ruhstaller B., Scott J. C., Brock P. J. Chemical Physics Letters 317.2000, P 238-244.
[17]
Sessler G. M. Gros B. and evolution of modern electret research. // Brazilian Journal of Physics. 1999. V.29. №2. Pş220-225.
[18]
K. İchimura. Chem. Rev., 100. 2000. 1847-1862.
Browse journals by subject