Arockiaraj, Micheal published the artcileTwo-dimensional coronene fractal structures: topological entropy measures, energetics, NMR and ESR spectroscopic patterns and existence of isentropic structures, Quality Control of 191-07-1, the publication is Molecular Physics (2022), 120(11), e2079568/1-e2079568/15, database is CAplus.
Mol. fractals are geometric patterns that appear self-similar across all length scales and are constructed by repeating a single unit on a regular basis. The benzenoid compounds are found to have a natural pattern that helps to analyze and explore the potential attributes of these mol. fractals. Here, we focus on coronene-based fractals where coronene is a benzenoid mol. with a symmetry graphite-like structure and challenging synthesis methods. Topol. mol. descriptors are obtained in order to provide structure-activity relations for the physico-chem. properties. We obtain these descriptors for the mol. fractals that are constructed by repeating a fixed unit of coronene on different stages systematically. The structural characterization of the two-dimensional coronene fractals in various tessellations is presented through a wide range of degree-based topol. indexes. The entropy measures of these significant frameworks are also computed for estimating their potential attributes, and the comparison of their values among various degree-based indexes is performed, which shows the existence of isentropic structures. We have developed machine learning techniques for robust computations of the enthalpies, NMR and ESR spectroscopic patterns of coronene fractals.
Molecular Physics published new progress about 191-07-1. 191-07-1 belongs to catalysis-chemistry, auxiliary class Electronic Materials, name is Coronene, and the molecular formula is C24H12, Quality Control of 191-07-1.
Referemce:
https://courses.lumenlearning.com/boundless-chemistry/chapter/catalysis/,
Catalysis – Wikipedia