DOI: 10.2174/1386207326666230831125646 ISSN:

Study for Some Eccentricity-based Topological Indices of Second Type of Dominating David-derived Network

Jia-Bao Liu, Haidar Ali, Didar Abdulkhaleq Ali, Ayesha Umer, Parvez Ali, Syed Ajaz K. Kirmani
  • Organic Chemistry
  • Computer Science Applications
  • Drug Discovery
  • General Medicine

Background:

Dominating David-derived networks are widely studied due to their fractal nature, with applications in topology, chemistry, and computer sciences. The use of molecular structure descriptors is a standard procedure that is used to correlate the biological activity of molecules with their chemical structures, which can be useful in the field of pharmacology

Objective:

This article's goal is to develop analytically closed computing formulas for eccentricity-based descriptors of the second type of dominating David-derived network. Thermodynamic characteristics, physicochemical properties, and chemical and biological activities of chemical graphs are just a few of the many properties that may be determined using these computation formulas.

Methods:

Vertex sets were initially divided according to their degrees, eccentricities, and cardinalities of occurrence. The eccentricity-based indices are then computed using some combinatorics and these partitions.

Results:

Total eccentricity, average eccentricity, and the Zagreb index are distance-based topological indices utilized in this study for the second type of dominating David-derived network, denoted as D_2 (m).

Conclusion:

These calculations will assist the readers in estimating the fractal and difficult-to-handle thermodynamic and physicochemical aspects of chemical structure. Apart from configuration and impact resistance, the D_2 (m) design has been used for fundamental reasons in a variety of technical and scientific advancements.

More from our Archive