CAPACITANCE OF SUPERCAPACITORS WITH ELECTRODES BASED ON CARBON NANOCOMPOSITE MATERIAL
Keywords:
carbon, nanocomposite, supercapacitors, carbone, supercondensateurs, الكربون, بمركب متناھي في الصغر, والمكثفات الفائقةAbstract
This work presents the results of our research of the structure and practically important characteristics of a nanocomposite material on the basis of nanoporous carbon and thermally exfoliated graphite. This work shows that the use of the abovementioned composition in electrodes for supercapacitors allows to attain the level of their specific electrical capacitance at(155...160) F/g.
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References
- Van der Geer J, Hanraads JAJ, Lupton RA. The art of writing a scientific article. J Sci Commun 2000;163:51–9.
- Strunk Jr W, White EB. The elements of style. 3rd ed. New York: Macmillan; 1979.
- Mettam GR, Adams LB. How to prepare an electronic version of your article. In: Jones BS, Smith RZ, editors. Introduction to the electronic age, New York: E-Publishing Inc; 1999, p. 281–304
- Revo SL, Budzulyak IM, Rachiy BI, Kuzishin MM. Electrode Material for Supercapacitors Based on Nanostructured. Surface Engineering and Applied Electrochemistry 2013;49(1):68–72.
- Revo SL, Lozovy FV, Ivanenko KO, Avramenko TG. Influence of the formation conditions on the resistivity of polymer-carbon coposite mixtures. PCSS 2010;11(4):1029-33 (in Ukrainian).
- Dovbeshko GI, Kopan VS, Revo SL, Nishchenko MM et al. Nanostructure of expanded graphite. Metallofizika i Noveishie Tekhnologii 2005;27(3):1001-10 (in Russian).
- Kovalyuk ZD, Bodnarashek VM, Mykytyuk IP, Yurtsenyuk NS et al. A porous carbon material with organic raw of plant origin as electrode component of supercapacitors. Fizychna inhgeneriya poverkhni 2011;9(2):176-81 (in Ukrainian).
- Kovalyuk V. M., Bondarashek I. P., Mykytyuk N. S., Yurtzenyuk S. P. The Electrode Component of Supercapacitors – Porous Carbon Material Made From Organic Phytogenic Raw // Physical Engeneering of the Surface, 9(2), pp. 176 – 181 (2011).
