The interplay of density functional selection and crystal structure for accurate NMR chemical shift predictions
Sebastian A. Ramos, Leonard J. Mueller, Gregory J. O. Beran
Abstract
experiment. However, most of the improvement stems from the use of the hybrid functional for the chemical shift calculations, rather than from the refined geometries. In addition, even with the improved geometries, we find that double-hybrid functionals still do not systematically increase chemical shift agreement with experiment beyond what hybrid functionals provide. In the end, these results suggest that the combination of GGA-level crystal structures and hybrid-functional chemical shifts represents a particularly cost-effective combination for NMR crystallography in organic systems.
Topics & Concepts
Chemical shiftCrystal (programming language)Density functional theoryCrystal structure predictionSelection (genetic algorithm)Materials scienceChemical physicsQuality (philosophy)Computational chemistryCrystal structureCrystallographyChemistryPhysical chemistryPhysicsComputer scienceMachine learningQuantum mechanicsProgramming languageMolecular spectroscopy and chiralityAdvanced NMR Techniques and ApplicationsCrystallography and molecular interactions