Parameters for analytical dispersion-corrected atom-centered potentials (DCACPs) are presented to improve the description of London dispersion forces within the generalized gradient approximation functionals BLYP, BP, and PBE. A library of DCACPs for hydrogen, carbon, nitrogen, oxygen, helium, neon, argon, and krypton was obtained by calibrating against high-level CCSD(T) or configuration interaction references. The performance and transferability of DCACPs were tested on weakly bound complexes and provide excellent results throughout all investigated systems
Dispersion-correcting potentials (DCPs) are atom-centered Gaussian functions that are applied in a m...
The D4 model is presented for the accurate computation of London dispersion interactions in density ...
peer reviewedWe present numerical estimates of the leading two- and three-body dispersion energy ter...
We add an effective atom-centered nonlocal term to the exchange-correlation potential in order to cu...
Recently, we have introduced a scheme for optimizing atom-based nonlocal external potentials within ...
London dispersion forces are of primordial importance in chemical and biological systems. The Kohn–S...
Dispersion-corrected atom-centered; potentials (DCACPs) for the element phosphorus were generated an...
An accurate treatment of the long-range electron correlation energy, including van der Waals (vdW) o...
The use of pairwise dispersion corrections together with dispersion-correcting potentials (DCPs) off...
The method of dispersion correction as an add-on to standard Kohn-Sham density functional theory (DF...
The use of pairwise dispersion corrections together with dispersion-correcting potentials (DCPs) off...
This thesis develops a rational foundation for the application of long-range forces to atomistic sim...
We introduce a class of interatomic potential models that can be automatically generated from data c...
Standard implementations of density functional theory (DFT) describe well strongly bound molecules a...
We present a computational methodology based on atom-centered potentials (ACPs) for the efficient an...
Dispersion-correcting potentials (DCPs) are atom-centered Gaussian functions that are applied in a m...
The D4 model is presented for the accurate computation of London dispersion interactions in density ...
peer reviewedWe present numerical estimates of the leading two- and three-body dispersion energy ter...
We add an effective atom-centered nonlocal term to the exchange-correlation potential in order to cu...
Recently, we have introduced a scheme for optimizing atom-based nonlocal external potentials within ...
London dispersion forces are of primordial importance in chemical and biological systems. The Kohn–S...
Dispersion-corrected atom-centered; potentials (DCACPs) for the element phosphorus were generated an...
An accurate treatment of the long-range electron correlation energy, including van der Waals (vdW) o...
The use of pairwise dispersion corrections together with dispersion-correcting potentials (DCPs) off...
The method of dispersion correction as an add-on to standard Kohn-Sham density functional theory (DF...
The use of pairwise dispersion corrections together with dispersion-correcting potentials (DCPs) off...
This thesis develops a rational foundation for the application of long-range forces to atomistic sim...
We introduce a class of interatomic potential models that can be automatically generated from data c...
Standard implementations of density functional theory (DFT) describe well strongly bound molecules a...
We present a computational methodology based on atom-centered potentials (ACPs) for the efficient an...
Dispersion-correcting potentials (DCPs) are atom-centered Gaussian functions that are applied in a m...
The D4 model is presented for the accurate computation of London dispersion interactions in density ...
peer reviewedWe present numerical estimates of the leading two- and three-body dispersion energy ter...