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How does basis set superposition error change the potential surfaces for hydrogen-bonded dimers?
Simon i Rabasseda, Sílvia; Duran i Portas, Miquel; Dannenberg, J. J.
We describe a simple method to automate the geometric optimization of molecular orbital calculations of supermolecules on potential surfaces that are corrected for basis set superposition error using the counterpoise (CP) method. This method is applied to the H-bonding complexes HF/HCN, HF/H2O, and HCCH/H2O using the 6-31G(d,p) and D95 + + (d,p) basis sets at both the Hartree-Fock and second-order Møller-Plesset levels. We report the interaction energies, geometries, and vibrational frequencies of these complexes on the CP-optimized surfaces; and compare them with similar values calculated using traditional methods, including the (more traditional) single point CP correction. Upon optimization on the CP-corrected surface, the interaction energies become more negative (before vibrational corrections) and the H-bonding stretching vibrations decrease in all cases. The extent of the effects vary from extremely small to quite large depending on the complex and the calculational method. The relative magnitudes of the vibrational corrections cannot be predicted from the H-bond stretching frequencies alone
2011-03-29
Anàlisi d'error (Matemàtica)
Energia de superfície
Enllaços químics
Molècules
Optimització matemàtica
Chemical bonds
Error analysis (Mathematics)
Mathematical optimization
Molecules
Molecular orbitals
Orbitals moleculars
Surface energy
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American Institute of Physics
         

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