Spectroscopic Properties and Computational Studies of Phosphosilicate-Doped Compounds Including (F, Cl, Br)

Spectroscopic Properties and Computational Studies of Phosphosilicate-Doped Compounds Including (F, Cl, Br)

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In this work, we added Cl, Br, and F atoms to the phosphate-silicate (PHS) molecule using deva curl arc angel the density functional theory (DFT) approach using a 6-31G basis set and the B3LYP level of theory.Numerous characteristics, including HOMO-LUMO, reduced density gradient (RDG), density of states (DOS), non-covalent interaction (NCI) theory, and molecular electrostatic potential (MEP) maps, were determined.The PHS molecule was found to have the biggest softness (0.

330 eV-1) and electronegativity (5.117 eV), along with a lower energy gap (3.029 eV).

These features point to improved inhibitor efficiency, polarizability, and higher chemical activity.On the other hand, it also implies that compounds with pure PHS are less stable when analyzed through the lens of density functional theory, which results in a greater read more degree of chemical reactivity.