Barriers to the internal rotation and observables of the ground state for hydrogen peroxyde |
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| Authors: | C Guidotti U Lamanna M Maestro R Moccia |
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| Institution: | (1) Centro di Chimica Teorica del CNR, Istituto di Chimica Fisica dell'Università di Pisa, 56100 Pisa, Italy;(2) Istituto di Chimica Analitica dell'Universita di Bari, Bari, Italy |
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| Abstract: | SCF energy and one electron properties of the H2O2 molecule have been calculated by using a basis of 52 STO's. The minimum total energy reached is –150.83188 a.u. By carrying out the calculation for three different geometrical configurations a reasonable agreement with experimental values of the barriers to the internal rotation is obtained.
Zusammenfassung Die SCF-Energie und die Einelektroneneigenschaften des H2O2-Moleküls werden mit einer Basis von 52 Slaterorbitalen berechnet. Als minimale Gesamtenergie werden der Wert von –150,83188 a.E. erreicht. Die Ergebnisse für 3 verschiedene Geometrien liefern eine befriedigende Übereinstimmung mit dem experimentellen Wert der Barriere für die innere Rotation.
Résumé L'énergie SCF et les propriétés monoélectroniques de la molécule H2O2 ont été calculées en utilisant une base de 52 orbitales de Slater. L'énergie minimum totale atteinte est –150.83188 u.a. Un accord raisonnable avec les valeurs expérimentales des barrières de rotation est obtenu en effectuant les calculs pour trois configurations géométriques différentes.
Note. When this paper was completed, we have received the work of Dunning and Winter. Their main results are quoted in Table 4. The agreement of the result for the trans barrier is very good. As in the case of Ref. 4] and 8] the geometry optimization contributes heavily (75% of the total value) to the result for the trans barrier. |
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