nuclear magnetic resonance spectroscopy (NMRS)

GPTKB entity

Statements (56)
Predicate Object
gptkbp:instanceOf analytical technique
gptkbp:alsoKnownAs NMR spectroscopy
gptkbp:analyzes gases
liquids
solids
gptkbp:appliesTo gptkb:medicine
biochemistry
chemistry
materials science
gptkbp:awarded gptkb:Nobel_Prize_in_Physics_1952
gptkbp:basedOn magnetic properties of atomic nuclei
gptkbp:canBe gptkb:proton_NMR
two-dimensional
one-dimensional
multidimensional
carbon-13 NMR
fluorine-19 NMR
phosphorus-31 NMR
gptkbp:commonIn carbon-13 nuclei
hydrogen-1 nuclei
gptkbp:dataPresentedAs NMR spectrum
gptkbp:detects nuclear spin transitions
gptkbp:developedBy 1940s
gptkbp:enables quantitative analysis
conformational analysis
dynamic studies
structure elucidation
https://www.w3.org/2000/01/rdf-schema#label nuclear magnetic resonance spectroscopy (NMRS)
gptkbp:inventedBy gptkb:Edward_Purcell
gptkb:Felix_Bloch
gptkbp:measures resonance frequency
NMR spectrometer
spin-spin coupling
signal intensity
gptkbp:provides chemical shift information
coupling constant information
relaxation time information
gptkbp:relatedTo gptkb:electron_paramagnetic_resonance_(EPR)
gptkb:magnetic_resonance_imaging_(MRI)
gptkb:Fourier_transform_spectroscopy
gptkbp:requires strong magnetic field
radiofrequency radiation
sample tube
deuterated solvent
gptkbp:spectrumShows chemical shifts
peaks
coupling patterns
integration values
multiplets
gptkbp:usedFor determining molecular structure
studying molecular dynamics
identifying compounds
gptkbp:uses chemical shift reference standard
tetramethylsilane (TMS) as reference
gptkbp:bfsParent gptkb:magnetic_resonance_spectroscopy_(MRS)
gptkbp:bfsLayer 6