The heats of formation of thirty-five molecules containing antimony atoms have been calculated using G4(MP2)-XK, B3LYP, M06, M06-HF, M06-2X, BMK, wB97XD, and TPSSh atomization. The discrepancies between the predicted and the reported heats of formation vary in the range of 0.0-83 kcal mol-1 when compared with experimental and literature. The best agreement with experimental and literature data was achieved by using G4(MP2)-XK. The functionals used did not show results as good as G4(MP2)-XK. In its development, G4 (MP2)-XK showed itself comparable in accuracy to the G4(MP2)-6X. Importantly, the precision of G4(MP2)-XK for heavier elements such as antimony is similar to that of the first- and second-row species, although it contains parameters that are only adjusted to the systems of the first two rows. In this study, we can observe that G4(MP2)-XK has excellent requirements for elements such as antimony and leads us to believe that its scope will be further expanded in future studies with formation enthalpy such as iodine and xenonium.
Keywords: Antimony compounds; Composite methods; G4(MP2)-XK; The heats of formation.
© 2022. The Author(s), under exclusive licence to Springer-Verlag GmbH Germany, part of Springer Nature.