Electric field effect on 31P NMR magnetic shielding
Ilya G. Shenderovich
Abstract
Magnetic shielding depends on molecular structure and noncovalent interactions. This study shows that it is also measurably dependent on the electric field generated by surrounding molecules. This effect has been observed explicitly for 31P nucleus using the adduct under field approach. The results obtained indicate that the field strength experienced by molecules in crystals consisting of molecules with large dipole moments is similar to that in polar solvents. Therefore, magnetic shielding should explicitly depend on solvent polarity. It is important to note that this effect cannot be reproduced correctly within the polarizable continuum model approach.
Topics & Concepts
Electromagnetic shieldingDipolePolarizabilityMoleculeChemical physicsChemical polarityElectric fieldMagnetic dipolePolarMagnetic fieldChemistryShielding effectMolecular physicsAdductField (mathematics)Computational chemistryCondensed matter physicsSolventPhysicsOrganic chemistryQuantum mechanicsMathematicsPure mathematicsAdvanced NMR Techniques and ApplicationsSolid-state spectroscopy and crystallographyAdvanced Chemical Physics Studies