Add to ORKGA recently developed ab-initio method for the calculation of NMR chemical shifts and magnetic susceptibilities in systems under periodic boundary conditions is presented and applied to a hydrogen-bonded molecular crystal. The calculations can unambiguously assign the chemical shifts to individual atoms in experimental spectra, and can further serve for the validation of simulated atomic trajectories and geometries. Apart from the example presented, the method can be applied to crystalline and amorphous insulators, as well as to isolated molecules using a supercell technique. The results are in good agreement with experiment. (C) 2002 Elsevier Science B.V. All rights reserved
We propose a new hybrid approach combining quantum chemistry and statistical mechanics of liquids fo...
We present a scheme for the calculation of magnetic response parameters in insulators using ultrasof...
The conceptual and numerical problems involved in the computation of reliable NMR chemical shifts fo...
A recently developed ab-initio method for the calculation of NMR chemical shifts and magnetic suscep...
We present a theory for the ab initio computation of NMR chemical shifts (sigma) in condensed matter...
We present a new method for computing NMR chemical shifts and magnetic susceptibilities in extended ...
In dieser Dissertation wird eine neue Methode zur Berechnung von NMR chemischen Verschiebungen und m...
We review the development of electronic structure methods for the calculation of nuclear magnetic re...
A theory for the ab initio calculation of all-electron NMR chemical shifts in insulators using pseud...
A DFT-based method is presented which allows the computation of all-electron NMR shifts of metallic ...
Measurements of chemical shifts obtained from magic-angle spinning NMR spectra (together with quantu...
A program for the calculation of the geometric structure of molecular crystals on the basis of the m...
We present a theoretical investigation of the hydrogen nuclear magnetic resonance (NMR) chemical shi...
International audienceIn this work, we present a quantum mechanics/molecular mechanics (QM/MM) appro...
In this article, we introduce and apply a methodology, based on density functional theory and the ga...
We propose a new hybrid approach combining quantum chemistry and statistical mechanics of liquids fo...
We present a scheme for the calculation of magnetic response parameters in insulators using ultrasof...
The conceptual and numerical problems involved in the computation of reliable NMR chemical shifts fo...
A recently developed ab-initio method for the calculation of NMR chemical shifts and magnetic suscep...
We present a theory for the ab initio computation of NMR chemical shifts (sigma) in condensed matter...
We present a new method for computing NMR chemical shifts and magnetic susceptibilities in extended ...
In dieser Dissertation wird eine neue Methode zur Berechnung von NMR chemischen Verschiebungen und m...
We review the development of electronic structure methods for the calculation of nuclear magnetic re...
A theory for the ab initio calculation of all-electron NMR chemical shifts in insulators using pseud...
A DFT-based method is presented which allows the computation of all-electron NMR shifts of metallic ...
Measurements of chemical shifts obtained from magic-angle spinning NMR spectra (together with quantu...
A program for the calculation of the geometric structure of molecular crystals on the basis of the m...
We present a theoretical investigation of the hydrogen nuclear magnetic resonance (NMR) chemical shi...
International audienceIn this work, we present a quantum mechanics/molecular mechanics (QM/MM) appro...
In this article, we introduce and apply a methodology, based on density functional theory and the ga...
We propose a new hybrid approach combining quantum chemistry and statistical mechanics of liquids fo...
We present a scheme for the calculation of magnetic response parameters in insulators using ultrasof...
The conceptual and numerical problems involved in the computation of reliable NMR chemical shifts fo...