Journal ArticleDOI
Property-optimized gaussian basis sets for molecular response calculations.
Dmitrij Rappoport,Filipp Furche +1 more
TLDR
The first comprehensive set of property-optimized augmented basis sets for elements H-Rn except lanthanides is constructed and the efficiency of the basis sets is demonstrated by computing static polarizabilities of icosahedral fullerenes up to C(720) using hybrid density functional theory.Abstract:
With recent advances in electronic structure methods, first-principles calculations of electronic response properties, such as linear and nonlinear polarizabilities, have become possible for molecules with more than 100 atoms. Basis set incompleteness is typically the main source of error in such calculations since traditional diffuse augmented basis sets are too costly to use or suffer from near linear dependence. To address this problem, we construct the first comprehensive set of property-optimized augmented basis sets for elements H–Rn except lanthanides. The new basis sets build on the Karlsruhe segmented contracted basis sets of split-valence to quadruple-zeta valence quality and add a small number of moderately diffuse basis functions. The exponents are determined variationally by maximization of atomic Hartree–Fock polarizabilities using analytical derivative methods. The performance of the resulting basis sets is assessed using a set of 313 molecular static Hartree–Fock polarizabilities. The mean...read more
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Journal ArticleDOI
Jaguar: A high-performance quantum chemistry software program with strengths in life and materials sciences
Art D. Bochevarov,Edward Harder,Thomas F. Hughes,Jeremy R. Greenwood,Dale A. Braden,Dean M. Philipp,David Rinaldo,Mathew D. Halls,Jing Zhang,Richard A. Friesner +9 more
TL;DR: Jaguar as mentioned in this paper is an ab initio quantum chemical program that specializes in fast electronic structure predictions for molecular systems of medium and large size, such as density functional theory (DFT) and local second-order Moller-Plesset perturbation theory.
Journal ArticleDOI
Thirty years of density functional theory in computational chemistry: an overview and extensive assessment of 200 density functionals
TL;DR: In the past 30 years, Kohn-Sham density functional theory has emerged as the most popular electronic structure method in computational chemistry as mentioned in this paper, and it has been used to assess the ever-increasing number of approximate structures.
Journal ArticleDOI
Supramolecular Binding Thermodynamics by Dispersion-Corrected Density Functional Theory
TL;DR: The theoretical approach employs a (nondynamic) single-structure model, but computes the various energy terms accurately without any special empirical adjustments, and provides unprecedented accuracy for ΔG(a) values with errors of only 2 kcal mol(-1) on average.
Journal ArticleDOI
ωB97X-V: A 10-parameter, range-separated hybrid, generalized gradient approximation density functional with nonlocal correlation, designed by a survival-of-the-fittest strategy
TL;DR: A 10-parameter, range-separated hybrid (RSH), generalized gradient approximation (GGA) density functional with nonlocal correlation (VV10) is presented and it is discovered that the functional that performs best on the training and primary test sets has 7 linear parameters, with 3 additional nonlinear parameters fromrange-separation and non local correlation.
Journal ArticleDOI
Consistent structures and interactions by density functional theory with small atomic orbital basis sets
TL;DR: The new composite scheme (termed PBEh-3c) represents the next member in a hierarchy of "low-cost" electronic structure approaches, mainly free of BSSE and account for most interactions in a physically sound and asymptotically correct manner, and is suggested as a robust "high-speed" computational tool in theoretical chemistry and physics.
References
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Journal ArticleDOI
Density-functional exchange-energy approximation with correct asymptotic behavior.
TL;DR: This work reports a gradient-corrected exchange-energy functional, containing only one parameter, that fits the exact Hartree-Fock exchange energies of a wide variety of atomic systems with remarkable accuracy, surpassing the performance of previous functionals containing two parameters or more.
Journal ArticleDOI
Accurate and simple analytic representation of the electron-gas correlation energy
John P. Perdew,Yue Wang +1 more
TL;DR: A simple analytic representation of the correlation energy for a uniform electron gas, as a function of density parameter and relative spin polarization \ensuremath{\zeta}, which confirms the practical accuracy of the VWN and PZ representations and eliminates some minor problems.
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Balanced basis sets of split valence, triple zeta valence and quadruple zeta valence quality for H to Rn: Design and assessment of accuracy
TL;DR: A large set of more than 300 molecules representing all elements-except lanthanides-in their common oxidation states was used to assess the quality of the bases all across the periodic table, and recommendations are given which type of basis set is used best for a certain level of theory and a desired quality of results.
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Density-functional approximation for the correlation energy of the inhomogeneous electron gas
TL;DR: Numerical results for atoms, positive ions, and surfaces are close to the exact correlation energies, with major improvements over the original LM approximation for the ions and surfaces.
Journal ArticleDOI
Electron affinities of the first-row atoms revisited. Systematic basis sets and wave functions
TL;DR: In this paper, a reliable procedure for calculating the electron affinity of an atom and present results for hydrogen, boron, carbon, oxygen, and fluorine (hydrogen is included for completeness).