Generalization of New Degree Based Topological Indices of Silicate Network Graph

Selvarani, Ponnuthai; Dhanalakshm, K.; Catherine, J. Irudaya Monica

doi:10.1088/1742-6596/1724/1/012034

Cited by 7 publications

(5 citation statements)

References 1 publication

Supporting

Mentioning

Contrasting

Order By: Relevance

“…We can extend silicate Si to any anions containing silicon (atom-bonding with other than oxygen atoms), as hexafluorosilicate SiF 2− 3 , see in [10]. Here, we discuss only chain of silicates, which is obtained by alternating sequence of tetrahedron SiO 4 [16,20]. In this article, the above defined eight temperature indices are constructed by the atombonds partition of chain of silicates SC p q , which are partitioned according to the degrees of its Si and oxygen atoms.…”

Section: Introductionmentioning

confidence: 99%

Characterization of Temperature Indices of Silicates

Khan

Ghani

Ghaffar

et al. 2023

Silicon

View full text Add to dashboard Cite

A topological index is a numerical value that describes the entire structure of a chemical compound's molecular graph and aids in the understanding of its physical properties, chemical reactivities, and boiling activities. In chemical graph theory, these indices are instrumental in quantifying various chemical properties of chemical compounds such as SiO 4 . The selection of SiO 4 in this work is an important aspect because of its structural flexibility, easy availability, and extraordinary nature to find its numerical values. In this paper, we compute systematically the first and second temperature, hyper temperature indices, the sum connectivity temperature index, the product connectivity temperature index, the reciprocal product connectivity temperature index, and the F temperature index of a molecular graph SiO 4 embedded in a chain. All of the discussed interlinked networks in this manuscript are well motivated by the molecular structure of SiO 4 .

show abstract

Section: Introductionmentioning

confidence: 99%

Characterization of Temperature Indices of Silicates

Khan

Ghani

Ghaffar

et al. 2023

Silicon

View full text Add to dashboard Cite

show abstract

“…We can extend silicate S i to any anions containing silicon (atom-bonding with other than O 2 ), as Hexafluorosilicate SiF 2− 3 , see in [23]. Here, we discuss only chain of silicates, which is obtained by alternating sequence of tetrahedron SiO 4 , see for details [24,25].…”

Section: Introductionmentioning

confidence: 99%

Computation of Zagreb Polynomial and Indices for Silicate Network and Silicate Chain Network

Ghani

Inc

Sultan

et al. 2023

Journal of Mathematics

View full text Add to dashboard Cite

The connection of Zagreb polynomials and Zagreb indices to chemical graph theory is a bifurcation of mathematical chemistry, which has had a crucial influence on the development of chemical sciences. Nowadays, the study of topological indices has become a vast effective research area in chemical graph theory. In this article, we add up eight different Zagreb polynomials for the Silicate Network and Silicate Chain Network. From these Zagreb polynomials, we catch up on degree-based Zagreb indices. We also provide a graphical representation of the outcome that describes the dependence of topological indices on the given parameters of polynomial structure.

show abstract

“…We also investigate the silicon tetrahedron

in a compound structure and derive the precise formulas of certain essential degree-based temperate indices using the approach of atom bond partitioning of the molecular structure of silicates. We use the the concept of temperature indices from Kulli and other researchers [ 26 , 27 ].…”

Section: Introductionmentioning

confidence: 99%

Connecting SiO4 in Silicate and Silicate Chain Networks to Compute Kulli Temperature Indices

et al. 2022

View full text Add to dashboard Cite

A topological index is a numerical parameter that is derived mathematically from a graph structure. In chemical graph theory, these indices are used to quantify the chemical properties of chemical compounds. We compute the first and second temperature, hyper temperature indices, the sum connectivity temperature index, the product connectivity temperature index, the reciprocal product connectivity temperature index and the F temperature index of a molecular graph silicate network and silicate chain network. Furthermore, a QSPR study of the key topological indices is provided, and it is demonstrated that these topological indices are substantially linked with the physicochemical features of COVID-19 medicines. This theoretical method to find the temperature indices may help chemists and others in the pharmaceutical industry forecast the properties of silicate networks and silicate chain networks before trying.

show abstract

Generalization of New Degree Based Topological Indices of Silicate Network Graph

Cited by 7 publications

References 1 publication

Characterization of Temperature Indices of Silicates

Characterization of Temperature Indices of Silicates

Computation of Zagreb Polynomial and Indices for Silicate Network and Silicate Chain Network

Connecting SiO4 in Silicate and Silicate Chain Networks to Compute Kulli Temperature Indices

Contact Info

Product

Resources

About