Journal of King Saud University: Science (Oct 2023)
Molecular level interaction of solvents (water, benzene and DMSO) analysis of the 2-Bromo-6-nitrotoluene's reactive charge transfer, docking, and spectroscopic properties
Abstract
The chemical structure of 2-Bromo-6-nitrotoluene was optimized using the B3LYP/6–311++G (d, p) basis set and density functional theory. Calculations were made on the molecules of the substance 2-Bromo-6-nitrotoluene's geometrical-parameters. A variety of DFT techniques, including border atomic orbitals, essential binding orbitals, local reaction descriptors, and molecular electrostatic potentials, are worn to test the reactivity of molecules. Several solvents (water, benzene and DMSO) were examined by UV–vis spectroscopy and vapor phase electronic transition. Estimated efficiency for the most heavily inhabited molecular orbital and even the least vacant molecular orbital describes electron excitation properties. Environmental toxicity, pharmacological similarity, localized orbital location, and electron localized function were assessed. To evaluate the material's metabolic processes, chemical interaction modelling was used. In conclusion, this paper offers a thorough investigation combining spectroscopic and quantum computational methods to evaluate the metabolic function and solvation impact of selected therapeutic substances. The information gathered is therefore very useful in planning for future study.
