We present a library of Gaussian basis sets that has been specifically optimized to perform accurate molecular calculations based on density functional theory. It targets a wide range of chemical environments, including the gas phase, interfaces, and the condensed phase. These generally contracted basis sets, which include diffuse primitives, are obtained minimizing a linear combination of the total energy and the condition number of the overlap matrix for a set of molecules with respect to the exponents and contraction coefficients of the full basis. Typically, for a given accuracy in the total energy, significantly fewer basis functions are needed in this scheme than in the usual split valence scheme, leading to a speedup for systems wher...
Using multiwavelets, we have obtained total energies and corresponding atomization energies for the ...
A method is given for the calculation of gas-phase bond dissociation energies (BDEs) for relatively ...
Eliminating all but the <i>s</i> and <i>p</i> diffuse functions on the non-hydrogenic atoms and all ...
The choice of basis set in quantum chemical calculations can have a huge impact on the quality of th...
We present the Gaussian and plane waves (GPW) method and its implementation in QUICKSTEP which is pa...
We have investigated and compared the ability of numerical and Gaussian-type basis sets to accuratel...
We consider floating Gaussian basis sets in which all parameters (positions, exponents and contract...
Implementation of very accurate ab initio methods on one hand and improvements in computer facilitie...
The choice of Gaussian type basis sets for electronic structure calculations of molecules is discuss...
The performance of gaussian basis sets for density functional theory based calculations of core elec...
For decades, all-Gaussian basis sets have dominated molecular quantum chemistry, despite some of the...
Bases of atomic-like functions provide a natural, physically motivated description of electronic sta...
Recently developed density functionals have good accuracy for both thermochemistry (TC) and non-cova...
We extend to strongly correlated molecular systems the recently introduced basis-set incompleteness ...
With the aim of systematically characterizing the convergence of common families of basis sets such ...
Using multiwavelets, we have obtained total energies and corresponding atomization energies for the ...
A method is given for the calculation of gas-phase bond dissociation energies (BDEs) for relatively ...
Eliminating all but the <i>s</i> and <i>p</i> diffuse functions on the non-hydrogenic atoms and all ...
The choice of basis set in quantum chemical calculations can have a huge impact on the quality of th...
We present the Gaussian and plane waves (GPW) method and its implementation in QUICKSTEP which is pa...
We have investigated and compared the ability of numerical and Gaussian-type basis sets to accuratel...
We consider floating Gaussian basis sets in which all parameters (positions, exponents and contract...
Implementation of very accurate ab initio methods on one hand and improvements in computer facilitie...
The choice of Gaussian type basis sets for electronic structure calculations of molecules is discuss...
The performance of gaussian basis sets for density functional theory based calculations of core elec...
For decades, all-Gaussian basis sets have dominated molecular quantum chemistry, despite some of the...
Bases of atomic-like functions provide a natural, physically motivated description of electronic sta...
Recently developed density functionals have good accuracy for both thermochemistry (TC) and non-cova...
We extend to strongly correlated molecular systems the recently introduced basis-set incompleteness ...
With the aim of systematically characterizing the convergence of common families of basis sets such ...
Using multiwavelets, we have obtained total energies and corresponding atomization energies for the ...
A method is given for the calculation of gas-phase bond dissociation energies (BDEs) for relatively ...
Eliminating all but the <i>s</i> and <i>p</i> diffuse functions on the non-hydrogenic atoms and all ...