Archive/Bounds for General Zagreb Indices and Improved Topological Coindices with QSPR Benchmarking on Octane Isomers
Bounds for General Zagreb Indices and Improved Topological Coindices with QSPR Benchmarking on Octane Isomers
Suha Wazzan, Abdu Alameri
3 de julio de 2026
en

Abstract

Topological descriptors play an important role in chemical graph theory and QSPR/QSAR studies by relating molecular structure to measurable physicochemical properties. Among standard benchmark families, octane isomers are frequently used to evaluate the behavior of degree-based descriptors because of their rich branching patterns and well-documented physicochemical data. Although many studies have examined topological indices for octane isomers, comparatively fewer works have focused on topological coindices and derived coindex-based descriptors. In this work, we study several known topological coindices and four derived descriptors, denoted by KJ1,KJ2,KJ3, and KJ4, for comparative analysis on the octane-isomer benchmark. We also present a unified treatment of lower and upper bounds for the first and second (α,β)-general Zagreb indices, together with their reduced and expanded variants, in terms of basic graph parameters, such as the minimum degree, maximum degree, order, and size. These bounds cover a range of familiar special cases, including classical Zagreb, forgotten, Sombor, and Randić-type indices, thereby placing several known descriptors within a common framework. For the application part, the original octane-isomer analysis is retained as a controlled benchmark for the proposed descriptors. In addition, an expanded QSPR experiment is added using a Zenodo molecular dataset containing 90 organic compounds and nine physicochemical endpoints. SMILES strings were converted into hydrogen-suppressed molecular graphs, graph-theoretical descriptors were computed, and ordinary least squares, ridge regression, and PLS(2) models were evaluated using an 80:20 train/test split and five-fold cross-validation. The expanded results show strong or useful performance for selected endpoints, especially critical volume, molecular volume, standard Gibbs free energy of formation, and logarithmic water solubility, whereas some temperature-related endpoints remain less stable. The results therefore support the usefulness of degree-based and coindex-based descriptors as compact exploratory QSPR variables while also emphasizing the need for cautious interpretation, redundancy analysis, and external validation on broader chemical families.

IPC Classification

G06C07H01

Keywords

boundsgeneralzagrebindicesimprovedtopologicalcoindicesqsprbenchmarkingoctaneisomerssymmetrydescriptorsplayimportantrolechemicalgraphtheoryqsarstudiesrelatingmolecularstructure
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