Relativistic effects for the superheavy reaction Og + 2Ts2 -> Og(Ts)4 : Dramatic relativistic effects for the atomization energy of Oganesson tetratennesside Og(Ts)4 and the prediction of the existence of tetrahedral Og(Ts)4

Abstract

Our all-electron fully relativistic Dirac-Fock (DF) and nonrelativistic (NR) Hartree-Fock (HF) SCF molecular calculations for the superheavy tetrahedral (Td) oganesson tetratennesside OgT4 predict atomization energy (Ae) of 7.45 and -11.21 eV, respectively. Our DF and NR calculations, however for the square planar (D4h)OsTs4 predict atomization energy (Ae) o 6.34 and -8.56 ev, respectively. There are dramatic relativistic effects for the atomization energy of Td and D4h OgT4 of -18.65 eV and 14.90 eV, respectively. Whereas our DF calculations predict the TdOgT4 to be more stable than the D4h OgT4 by ~1.10 eV, our NR calculations predict the D4h OgT4 to be more stable than the Td OgT4 by ~2.65eV. Our NR calculations predict both the Td and D4h OgTs4 to be unbound by 11.21 and 8.56 eV, respectively. However our relativistic DF calculations predict both the Td and D4h OgT4 to be bound by 7.45 and 6.34 eV respectively and so the relativistic treatment is mandatory for bonding and binding in the pentatomic superheavy system with 586 electrons involving the two heaviest SHE Ts and Og.

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