On the possibility of creation of the new state of fullerene's structures by the variation of the isotopic composition of carbon

Received: 03 September 2013; Revised: 18 October 2013; Accepted: 11 November 2013
This paper is written in Russian
Citation: M.N. Magomedov. On the possibility of creation of the new state of fullerene's structures by the variation of the isotopic composition of carbon. Letters on Materials, 2014, 4(1) 22-24
BibTex   DOI: 10.22226/2410-3535-2014-1-22-24

Abstract

Proceeding from the fact of isotope change of parameters of pair interatomic interaction in diamond, the way of modification fullerene shape by a variation of its isotopic composition is offered. It is specified, that by the isotope replacement is carried out within the limits of one hemisphere of fullerene molecule (for example, 12C60→12C30 13C30) it is possible to create the pear-shaped fullerene, where heavy isotopes 13C will settle down on more close distances. From pear-shaped fullerenes it will be possible to create the fullerene structure of a new kind: "flower", which petals will be pear-shaped fullerenes.

References (8)

1.
A.V. Eletskii, B.M. Smirnov. Phys. Usp. 38(9), 935 (1995). [А.В. Елецкий, Б.М. Смирнов. Успехи физических наук. 165(9), 977 (1995).]
2.
E.A. Belenkov, V.A. Greshnyakov. Physics of the solid state. 55(8), 1245 (2013). [Е.А. Беленков,В.А. Грешняков. Физика твердого тела. 55(8), 1240 (2013).]
3.
V.G. Plekhanov. Phys. Usp. 46, 689 (2003) [В.Г. Плеханов. Успехи физических наук. 173(7), 711 (2003).]
4.
M.N. Magomedov. Technical Physics Letters. 31(5), 381 (2005); 32(5), 434 (2006). [М.Н. Магомедов. Письма в ЖТФ. 31(9), 50 (2005); 32(10), 40 (2006).]
5.
M.N. Magomedov. Izuchenie mezhatomnogo vzaimodeystviya, obrazovaniya vakansiy i samodiffuzii v kristallakh [Study of interatomic interaction, vacancy formation, and self-diffusion in crystals]. M.: Fizmatlit Publ. (2010) 544 p. (in Russian) [М.Н. Магомедов. Изучение межатомного взаимодействия, образования вакансий и самодиффузии в кристаллах.М.: Физматлит. 2010. 544 с.]
6.
M.N. Magomedov. High Temperature. 44(4), 513 (2006); 44(6), 861 (2006). [М.Н. Магомедов. Теплофизика высоких температур. 44(4), 518 (2006); 44(6), 868 (2006).]
7.
M.N. Magomedov. Physics of the solid state. 47(4), 785 (2005); 48(11), 2220 (2006). [М.Н. Магомедов. Физика твердого тела. 47(4), 758 (2005); 48(11), 2299 (2006).]
8.
C. Baleizão, M.N. Berberan-Santos. Chem. Phys. Chem. - A European Journal of Chemical Physics and Physical Chemistry. 12(7), 1247 (2011).