Vacancy transport properties in boron-carbon BC_3 nanotubes

Vacancy transport properties in boron-carbon BC_3 nanotubes

In this article results of computer modeling of processes of ionic conductivity of boron-carbon nanotubes (6,0) of BC_ n type, where n = 3 are presented. Two types of a relative positioning of boron and carbon atoms are considered. The research was performed using the MNDO method within the framewor...

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Bibliographic Details
Main Authors: I.V. Zaporotskova, S.V. Boroznin, E.V. Boroznina, D.I. Polikarpov, A.A. Krutoyarov
Format: Article
Language:English
Published: Povolzhskiy State University of Telecommunications & Informatics 2013-02-01
Series:Физика волновых процессов и радиотехнические системы
Subjects:
boron-carbon nanotubes
vacancy
v-defect
transport properties
ionic conductivity
activation energy
vacancy migration
semi-empirical methods of investigation
Online Access:https://journals.ssau.ru/pwp/article/viewFile/7361/7220
Description
Summary:In this article results of computer modeling of processes of ionic conductivity of boron-carbon nanotubes (6,0) of BC_ n type, where n = 3 are presented. Two types of a relative positioning of boron and carbon atoms are considered. The research was performed using the MNDO method within the framework of a molecular cluster model. For investigation of ionic conductivity process the vacancy formation has been modeled. Energetic and electronic characteristics of these processes have been carried out. The vacancy migration process has been modeled. The conductivity coefficient dependence of temperature has been found.
ISSN:1810-3189
2782-294X

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