1. Towards the intrinsic error of the correlation consistent Composite Approach (ccCA)
- Author
-
Aaron W. Pierpont, Angela K. Wilson, Thomas R. Cundari, Brent R. Wilson, and Nathan J. DeYonker
- Subjects
Chemistry ,Biophysics ,Thermodynamics ,Condensed Matter Physics ,Affinities ,Standard enthalpy of formation ,Dissociation (chemistry) ,Ionization ,Physics::Atomic and Molecular Clusters ,Thermochemistry ,Physics::Chemical Physics ,Physical and Theoretical Chemistry ,Atomic physics ,Wave function ,Molecular Biology ,Open shell ,Basis set - Abstract
The correlation consistent Composite Approach (ccCA) has been made more robust by (a) modifying the basis set used in computing B3LYP equilibrium geometries and harmonic vibrational frequencies so that the correlation consistent basis sets are used throughout ccCA; (b) separately extrapolating the MP2 and Hartree–Fock complete basis set limit energies; (c) uniformly treating unrestricted open shell wave functions; (d) utilizing newly recommended enthalpies of formation for C, B, Al, and Si atoms; and (e) using theoretically derived vibrational scale factors. This modified ccCA formulation has been used to compute the 454 energetic properties (enthalpies of formation, dissociation energies, ionization potentials, electron affinities, and proton affinities) in the G3/05 test set. This new formulation, which does not contain any optimized parameters, has a small systematic statistical bias (mean signed deviation of −0.20 kcal mol−1), and has a mean absolute deviation of 1.01 kcal mol−1 with the incorporation...
- Published
- 2009
- Full Text
- View/download PDF