Physics and Chemistry of Solid State

 

2015   Vol.16   №1

Title

Content

Editorial
Board

 

 

DOI: 10.15330/pcss.16.1.217-220

V.I. Mandzyuk1, V.G. Khomenko2, V.M. Sachko1, I.F. Myronyuk1, V.Z. Barsukov2

The Lithium Power Sources Based on Porous Carbon Material

1 Vasyl Stefanyk Precarpathian National University, 57 Shevchenko Str., Ivano-Frankivsk, 76018, Ukraine, mandzyuk_vova@ukr.net
2 Kyiv National University of Technologies and Design, 2 Nemirovich-Danchenko Str., Кyiv, 01011, Ukraine

The paper describes the use of porous carbon material (PCM), obtained from plant raw materials as anode of lithium power source (LPS). It is established that the electrochemical parameters of LPS at current density of C/20 are stable over long cycling (over 90 charge/discharge cycles) – discharge capacity remained at 150 mA•h/g, and Coulomb efficiency exceeds 95%.
Keywords: porous carbon material, lithium power sources, galvanostatic charge/discharge, specific capacity, Coulomb efficiency.

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 Reference

[1] Z. Ogumi, M. Inaba, Advances in lithium-ion batteries (Plenum publishers, Kluwer Academic, 2002).
[2] M. Noel, V. Suryanarayanan, J. Power Sources, 111 (2), 193 (2002).
[3] P. Novak, D. Goers, M.E. Spahr, Carbons for electrochemical energy storage and conversion systems (Advanced materials and technologies series, CRC Press Taylor & Francis Group, 2010).
[4] P. Novák, F. Joho, M. Lanz, J. Power Sources, 97-98, 39 (2001).
[5] N.І. Nagіrna, V.І. Mandzjuk, R.P. Lіsovs'kij, Ju.O. Kulik, Fіzika і hіmіja tverdogo tіla, 14 (4), 749 (2013).
[6] V.І. Mandzjuk, N.І. Nagіrna, R.P. Lіsovs'kij, Zhurnal nano-ta elektronnoї fіziki, 6 (1), 01017-1 (2014).
[7] V.І. Mandzjuk, І.P. Jaremіj, Fіzika і hіmіja tverdogo tіla, 15 (3), 490 (2014).
[8] V.І. Mandzjuk, B.І. Rachіj, R.P. Lіsovs'kij, R.І. Merena, Fіzika і hіmіja tverdogo tіla, 10 (3), 647 (2009).
[9] V.I. Mandzyuk, R.P. Lisovskyy, N.I. Nagirna, Nanoscience and Nanotechnology Research, 1 (2), 23 (2013).
[10] V.І. Mandzjuk, R.P. Lіsovs'kij, N.І. Nagіrna, B.І. Rachіj, Fіzichna іnzhenerіja poverhnі, 11 (1), 112 (2013).