Further results on degree based topological indices of certain chemical networks

TL;DR

This paper computes specific degree-based topological indices for various chemical networks and compares their properties using computer simulations to understand their chemical significance.

Contribution

It introduces calculations of sum-connectivity and Zagreb indices for chemical networks and provides a comparative analysis of these indices across different network types.

Findings

Computed indices for silicate, hexagonal, oxide, and honeycomb networks.

Provided a comparative analysis of index behaviors across network families.

Enhanced understanding of topological indices' relation to chemical properties.

Abstract

There are various topological indices such as degree based topological indices, distance based topological indices and counting related topological indices etc. These topological indices correlate certain physicochemical properties such as boiling point, stability of chemical compounds. In this paper, we compute the sum-connectivity index and multiplicative Zagreb indices for certain networks of chemical importance like silicate networks, hexagonal networks, oxide networks, and honeycomb networks. Moreover, a comparative study using computer-based graphs has been made to clarify their nature for these families of networks.