Nuclear Magnetic Spectroscopy

GPTKB entity

Statements (49)
Predicate Object
gptkbp:instanceOf analytical technique
gptkbp:abbreviation gptkb:NMR_Spectroscopy
gptkbp:alsoKnownAs gptkb:Nuclear_Magnetic_Resonance_Spectroscopy
gptkbp:application gptkb:medicine
biochemistry
organic chemistry
structural biology
material science
gptkbp:basedOn magnetic properties of atomic nuclei
gptkbp:commonlyUsedNuclei gptkb:15N
gptkb:1H
gptkb:31P
gptkb:19F
13C
gptkbp:detects nuclear spin transitions
gptkbp:enables quantitative analysis
analysis of molecular dynamics
identification of unknown compounds
study of protein-ligand interactions
https://www.w3.org/2000/01/rdf-schema#label Nuclear Magnetic Spectroscopy
gptkbp:introducedIn 1946
gptkbp:inventedBy gptkb:Isidor_Isaac_Rabi
gptkbp:limitation low sensitivity for some nuclei
requires large sample quantities for some experiments
expensive instrumentation
gptkbp:measures relaxation times
chemical shift
spin-spin coupling
gptkbp:NobelPrizeYear gptkb:Edward_Mills_Purcell_(1952)
gptkb:Felix_Bloch_(1952)
Isidor Isaac Rabi (1944)
gptkbp:notableInstrumentManufacturer gptkb:Agilent_Technologies
gptkb:Bruker
gptkb:JEOL
gptkbp:output NMR spectrum
gptkbp:relatedTo gptkb:Electron_Paramagnetic_Resonance
gptkb:Magnetic_Resonance_Imaging
gptkbp:requires strong magnetic field
radiofrequency radiation
gptkbp:spectrumAxis intensity
chemical shift (ppm)
gptkbp:type gptkb:solution_NMR
gptkb:1D_NMR
gptkb:2D_NMR
solid-state NMR
gptkbp:usedFor determining molecular structure
studying physical and chemical properties of atoms or molecules
gptkbp:bfsParent gptkb:NMS
gptkbp:bfsLayer 6