Alain St. Amant scite author profile

Density functional theory is tested on a large ensemble of model compounds containing a wide variety of functional groups to understand better its ability to reproduce experimental molecular geometries, relative conformational energies, and dipole moments. We find that gradient-corrected density functional methods with triple-5 plus polarization ba$s sets reproduce geometries well. ST.-AMANT ET AL.For the 35 comparisons of conformational energies for which experimental data was available, the root mean square (rms) deviation for gradient-corrected functionals was approximately 0.5 kcal mol-' . Without gradient corrections, the rms deviation is 0.8 kcal mol-I, which is even less accurate than the Hartree-Fock calculations. Calculations with extended basis sets and with gradient corrections incorporated into the self-consistent procedure generate dipole moments with an rms deviation of 5%. Dipole moments from local density functional calculations, with more modest basis sets, can be scaled down to achieve roughly the same accuracy. In this study, all density functional geometries were generated by local density functional self-consistent calculations with gradient corrections added in a perturbative fashion. Such an approach generates results that are almost identical to the self-consistent gradient-corrected calculations, which require significantly more computer time. Timings on scalar and vector architectures indicate that, for moderately sized systems, our density functional implementation requires only slightly less computer resources than established Hartree-Fock programs. However, our density functional calculations scale much better and are significantly faster than their MP2 counterparts, whose results they approach. 0 1995 by John Wiley & Sons, Inc.

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Molecular Orbital Study of the Chemisorption of Small Molecules on MgO Surfaces

Kobayashi

Amant

Salahub

et al. 1993

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Alain St. Amant

Gaussian density functional calculations on hydrogen-bonded systems

Gaussian-based Density Functional Methodology, Software, and Applications

Calculation of molecular geometries, relative conformational energies, dipole moments, and molecular electrostatic potential fitted charges of small organic molecules of biochemical interest by density functional theory

Molecular Orbital Study of the Chemisorption of Small Molecules on MgO Surfaces

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