Institute of Physics Ministry of Science and Education Republic of Azerbaijan

2020 02 az p.25-29

R.G. Abaszade,
Analysis of carbon nanotubes

ABSTRACT

The present article is devoted to the analysis of carbon nanotubes and carbon nanotubes doped by gadolinium. The carbon nanotubes obtained by the electric arc method and the carbon nanotubes doped by ten percent gadolinium have the form of rectangular parallelepiped. Then they are studied by X-ray phase analysis and Raman scattering methods. The significant changes in X-ray phase and Raman scattering analyzes are carried out at changes of mechanical properties of carbon nano-tube. This can be explained by the weakening of sp² hybridization.

Keywords: Carbon nanotube, gadolinium, X-ray phase analysis, Raman scattering, electric arc method.
PACS: 42.55.Ye, 61.05.C−, 73.63.Fg, 87.64.Je

DOI:-

Received: 03.09.2020

AUTHORS & AFFILIATIONS

Institute of Physics named after H.M. Abdullayev of Azerbaijan National Academy of Sciences, 131 H. Javid ave, Baku, AZ 1143
E-mail: abaszada@gmail.com r.abaszada@physics.science.az

[1]   П. Харрис. Углеродные нанотрубки и родственные структуры: новые материалы ХХI века, СПб: Техносфера, 2003 год, 336 стр.
[2]   M. Holzinger, J. Abraham, P. Whelan, R. Graupner, L. Ley, F. Hennrich, M. Kappes, A. Hirsch. Jour.Ame.Chem.Soc., 125, 2003, pp.8566-8580.
[3]   H. Hu, B. Zhao, M.A. Hamon, K. Kamaras, M.E. Itkis, R.C. Haddon. Jour. Ame. Chem. Soc., 125, 2003, pp.14893-14900.
[4]   E.I. Waldorff, A.M. Wass, P.P. Friedmann, M. Keidar. Jour. App. Phys., vol.95, № 5, 2004, pp. 2749-2754
[5]   A.G. Nasibulin, A. Moisala, D.P. Brown, H. Jiang, E.I. Kauppinen. Chemical Physics Letters, 402, 2005, pp. 227–232.
[6]   Y. Ando, X. Zhao. New diamond and frontier carbon technology, vol.16, № 3, 2006, pp.122-137.
[7]   W. Krätschmer, L.D. Lamb, K. Fostiropoulos, D.R. Huffman. Solid C60: A New Form of Carbon, Nature, 1990, vol. 347, pp. 354-358.
[8]   J. Kong, A.M. Cassell, H.J. Dai. Chem. Phys. Lett., 1998, vol. 292, pp. 567-574.
[9]   Y. Akai, S. Saito. Physica E, 2005, vol. 29, pp.555.
[10]  R. Das, Sh. Hamid, Md. Ali, S. Ramakrishna, Y. Wu. A Review. Current Nanoscience, № 11, vol. 1, 2015, pp.1-14.
[11]  J.N. Coleman, U. Khan, W.J. Blau, Y.K. Gun’ko. Small But Strong: A Review of the Mechanical Properties of Carbon Nanotube-polymer Composites, Carbon, 2006, vol. 44, pp.1624-1652.
[12]  P.C. Ma, N.A. Siddiqui, G. Marom, J.K. Kim. Dispersion and Functionalization of Carbon Nanotubes for Polymer-based Nanocomposites: A Review, Composites: Part A., 2010, vol. 41, pp.1345-1367.
[13]  Т.П. Дьячкова, А.Г. Ткачев. Методы функционализации и модифицирования углеродных нанотрубок, М.:Издательский дом «Спектр», 2013, 152 с.
[14]  C. Thomsen. Appl. Physics 108, 2007, pp.115-232.
[15]  Y. Zhonghua, B. Louis. J. Phys. Chem., B.105, 2001, pp.1123-1134.
[16]  M.S. Dresselhaus, G. Dresselhaus, R. Saito, A.Jorio. Physics Reports, 2005, vol.409, № 2, pp.47-99.
[17]  P.C. Ma, N.A. Siddiqui, G. Marom, J.K. Kom. Dispersion and functionalization of carbon nanotubes for polymer-based nanocomposites: A review. Composites: Part A, 2010, vol.41, pp.1345-1367.
[18]  E.W. Wong, P.E. Sheehan, C.M. Lieber. Science, 1997, vol.277, pp.1971-1975
[19]  M. Olek, J. Ostrander, S. Jurga, H. Mohwald, N. Kotov, K. Kempa, M. Giersig. Nano letters, 2004, vol.4, № 4, pp.1889-1895.