Entropy Measures of Some Nanotubes

Abstract

The physicochemical properties of molecules are correlated with their chemical structure using degree-based topological indices. The graph entropy zone has captured the imagination of scientists because of its possible application in chemistry. Boron nanotubular structures are high-interest materials with new electronic characteristics due to the presence of multi center bonds. Mechanical and thermal stability are two challenges that these materials have in nanodevice applications. Therefore, they necessitate theoretical research into the other qualities. In this article, study the graph entropy measure by using topological invariants of different versions of atom-bond connectivity index Zagreb indices (including redefined forms and and the forgotten topological index F(G)) which gives a better prediction of the chemical properties of different chemical compounds. We computed these indices for Boron Nanotube because of its significance in nanotechnology. To ensure the correctness of the output, a computational analysis and graphical comparison of generated indices is provided.