Analytic calculation of nuclear magnetic resonance chemical shielding tensors, based on gauge-including atomic orbitals, is implemented for double-hybrid density functional theory (DHDFT), using the resolution of the identity (RI) approximation for its second order Møller–Plesset perturbation theory (MP2) correlation contributions. A benchmark set of 15 small molecules, containing 1H, 13C, 15N, 17O, 19F, and 31P nuclei, is used to assess the accuracy of the results in comparison to coupled cluster and empirical equilibrium reference data, as well as to calculations with MP2, Hartree–Fock, and commonly used pure and hybrid density functionals. Investigated are also errors due to basis set incompleteness, the frozen core approximation, differ...
This paper presents a systematic study of applying composite method approximations with locally dens...
We investigate the performance for nuclear magnetic constant calculations for a selective set of den...
Calculations of the principal components of magnetic-shielding tensors in crystalline solids require...
Analytic calculation of nuclear magnetic resonance chemical shielding tensors, based on gauge-includ...
Analytic calculation of nuclear magnetic resonance chemical shielding tensors, based on gauge-includ...
Nuclear magnetic resonance (NMR) spectroscopy is an essential analytic technique in chemical, pharma...
The chain-of-spheres method (COS) for approximating two-electron integrals is applied to Hartree–Foc...
We present a systematic density functional investigation on the prediction of the C-13, N-15, O-17, ...
Fifteen procedures based on hybrid density functional theory were used to calculate magnetic propert...
The development and implementation of sum-over-states density-functional-perturbation theory (SOS-DF...
We present the first systematic investigation of shifts in the nuclear magnetic resonance (NMR) shie...
56 pagesWe present a density functional theory based method for calculating NMR shielding tensors fo...
The prediction of nuclear magnetic resonance (NMR) shielding parameters for the N atom represents a ...
The performance of hybrid density functional theory for the calculation of indirect nuclear spin–spi...
International audienceThe performance of modern density functionals for the prediction of molecular ...
This paper presents a systematic study of applying composite method approximations with locally dens...
We investigate the performance for nuclear magnetic constant calculations for a selective set of den...
Calculations of the principal components of magnetic-shielding tensors in crystalline solids require...
Analytic calculation of nuclear magnetic resonance chemical shielding tensors, based on gauge-includ...
Analytic calculation of nuclear magnetic resonance chemical shielding tensors, based on gauge-includ...
Nuclear magnetic resonance (NMR) spectroscopy is an essential analytic technique in chemical, pharma...
The chain-of-spheres method (COS) for approximating two-electron integrals is applied to Hartree–Foc...
We present a systematic density functional investigation on the prediction of the C-13, N-15, O-17, ...
Fifteen procedures based on hybrid density functional theory were used to calculate magnetic propert...
The development and implementation of sum-over-states density-functional-perturbation theory (SOS-DF...
We present the first systematic investigation of shifts in the nuclear magnetic resonance (NMR) shie...
56 pagesWe present a density functional theory based method for calculating NMR shielding tensors fo...
The prediction of nuclear magnetic resonance (NMR) shielding parameters for the N atom represents a ...
The performance of hybrid density functional theory for the calculation of indirect nuclear spin–spi...
International audienceThe performance of modern density functionals for the prediction of molecular ...
This paper presents a systematic study of applying composite method approximations with locally dens...
We investigate the performance for nuclear magnetic constant calculations for a selective set of den...
Calculations of the principal components of magnetic-shielding tensors in crystalline solids require...