Computational Analysis of topological indices of two Boron Nanotubes

被引：0

作者：

Young Chel Kwun

Mobeen Munir

Waqas Nazeer

Shazia Rafique

Shin Min Kang

机构：

[1] Dong-A University,Department of Mathematics

[2] University of Education,Division of Science and Technology

[3] Punjab University Lahore,Center for Excellence in Molecular Biology

[4] Gyeongsang National University,Department of Mathematics and RINS

[5] China Medical University,Center for General Education

来源：

Scientific Reports | / 8卷

关键词：

Boron Nanotubes; Topological Index; Triangular Boron; Hosoya Polynomial; Qualitative Structure Activity Relationships (QSARs);

D O I：

暂无

中图分类号：

学科分类号：

摘要：

There has been a recent debate that boron nanotubes can outperform carbon nanotubes on many grounds. The most stable boron nanotubes are made of a hexagonal lattice with an extra atom added to some of the hexagons called ∝-boron nanotubes. Closed forms of M-polynomial of nanotubes produce closed forms of many degree-based topological indices which are numerical parameters of the structure and determine physico-chemical properties of the concerned nanotubes. In this article, we compute and analyze many topological indices of ∝-boron nanotubes correlating with the size of structure of these tubes through the use of M-polynomial. More importantly we make a graph-theoretic comparison of indices of two types of boron nanotubes namely triangular boron and ∝-boron nanotubes.

引用

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