SOMBOR INDICES OF \(TUAC_{6}\) AND \(TUZC_{6}\) NANOTUBES

Main Article Content

B. K. DIVYASHREE
R. JAGADEESH
. SIDDABASAPPA

Abstract

In a molecular structure, topological indices help us to capture the uniformity of the structure and also provide us the scientific provincialism to predict properties such as radius of gyrations, boiling points, viscosity etc. In this paper, we compute the sombor indices and the multiplicative sombor indices of \(TUAC_{6}[n,m]\) and \(TUZC_{6}[n,m]\) nanotubes. These degree-based topological indices formulas for the nanotubes build the connection which diffuses on the structure of the parameters and also in association, determine the properties of the nanotubes. We also plot the graphs to see the effects of our results on the considered parameters.

Keywords:
Sombor index, multiplicative sombor index, multiplicative modified sombor index, multiplicative reduced sombor index, nanotube

Article Details

How to Cite
DIVYASHREE, B. K., JAGADEESH, R., & SIDDABASAPPA, . (2022). SOMBOR INDICES OF \(TUAC_{6}\) AND \(TUZC_{6}\) NANOTUBES. Journal of Applied Chemical Science International, 13(4), 70-79. Retrieved from https://ikpresse.com/index.php/JACSI/article/view/7756
Section
Original Research Article

References

Gutman I, Polansky OE. Chemical graphs. InMathematical Concepts in Organic Chemistry. Springer, Berlin, Heidelberg. 1986;19-22.

Kulli VR. Multiplicative connectivity indices of nanostructures. Rīgā: LAP Lambert Academic Publishing; 2018.

Kulli VR. College Graph Theory, Vishwa International Publications, Gulbarga, India; 2012.

Kulli VR. δ-Sombor index and its exponential for certain nanotubes. Ann. Pure Appl. Math. 2021;23:37-42.

Ediz S. On the reduced first Zagreb index of graphs. Pacific Journal of Applied Mathematics. 2016;8(2):99.

Furtula B, Gutman I, Ediz S. On difference of Zagreb indices. Discrete Applied Mathematics. 2014;178:83-8.

Kulli VR. General reduced second Zagreb index of certain networks. International Journal of Current Research in Life Sciences. 2018;7(11):2827-33.

Gao W, Wang Y, Wang W, Shi L. The first multiplication atom-bond connectivity index of molecular structures in drugs. Saudi Pharmaceutical Journal. 2017;25(4):548- 55.

Kulli VR. Multiplicative connectivity KV indices of dendrimers, Journal of Mathematics and Informatics. 2019;15:1-7.

Kulli VR. Multiplicative Gourava indices of armchair and zigzag polyhex nanotubes. Journal of Mathematics and Informatics. 2019;17:107-12.

Kulli VR. Computation of multiplicative (a, b)-status index of certain graphs. Journal of Mathematics and Informatics. 2020;18:45-50.

Kulli VR. Computing some multiplicative temperature indices of certain networks. Journal of Mathematics and Informatics. 2020;18:139-43.

Kulli VR. Computation of Multiplicative minus F-indices of titania nanotubes. Journal of Mathematics and Informatics. 2020;18:135-40.

Kulli VR. Computation of Multiplicative minus F-indices of titania nanotubes. Journal of Mathematics and Informatics. 2020;18:135-40.

Gutman I. Geometric approach to degree-based topological indices: Sombor indices. MATCH Commun. Math. Comput. Chem. 2021; 86(1):11-6.

Kulli VR. Multiplicative sombor indices of certain nanotubes. International Journal of Mathematical Archive. 2021;12(3):1-5.

Repetsky S, Vyshyvana I, Nakazawa Y, Kruchinin S, Bellucci S. Electron transport in carbon nanotubes with adsorbed chromium impurities. Materials. 2019;12(3):524.

Repetsky SP, Vyshyvana IG, Kruchinin SP, Bellucci S. Influence of the ordering of impurities on the appearance of an energy gap and on the electrical conductance of graphene. Scientific Reports. 2018;8(1):1-7.