nuclear magnetic resonance (NMR)

GPTKB entity

Statements (88)
Predicate Object
gptkbp:instanceOf physical phenomenon
analytical technique
gptkbp:abbreviation gptkb:NMR
gptkbp:advantage quantitative analysis
minimal sample preparation
no ionizing radiation
applicable to solids and liquids
can study dynamics
can study mixtures
detailed structural information
non-destructive analysis
gptkbp:analyzes chemical environment of nuclei
gptkbp:basisFor magnetic properties of atomic nuclei
gptkbp:commonNuclei gptkb:15N
gptkb:1H
gptkb:31P
gptkb:19F
13C
gptkbp:component gptkb:personal_computer
superconducting magnet
radiofrequency receiver
radiofrequency transmitter
sample probe
gptkbp:detects nuclear spin transitions
gptkbp:discoveredBy gptkb:Isidor_Isaac_Rabi
gptkbp:discoveredIn 1938
gptkbp:enables gptkb:imaging_(MRI)
metabolomics
study of molecular interactions
identification of compounds
study of molecular motion
study of molecular structure
study of nucleic acid structure
study of protein structure
gptkbp:hasFeature gptkb:tetramethylsilane_(TMS)
deuterated solvents
external standard
internal standard
gptkbp:hasNobelPrize gptkb:Edward_Mills_Purcell_(1952)
gptkb:Felix_Bloch_(1952)
Isidor Isaac Rabi (1944)
Kurt Wüthrich (2002)
Paul Lauterbur (2003)
Richard R. Ernst (1991)
Sir Peter Mansfield (2003)
gptkbp:hasType gptkb:dynamic_nuclear_polarization_(DNP)
gptkb:high-resolution_NMR
gptkb:low-field_NMR
gptkb:magic_angle_spinning_(MAS)_NMR
gptkb:multidimensional_NMR
gptkb:nuclear_Overhauser_effect_(NOE)_NMR
gptkb:pulsed_NMR
gptkb:solution_NMR
solid-state NMR
continuous wave NMR
hyperpolarized NMR
imaging NMR
gptkbp:hasUnit gptkb:hertz_(Hz)
gauss (G)
parts per million (ppm)
tesla (T)
https://www.w3.org/2000/01/rdf-schema#label nuclear magnetic resonance (NMR)
gptkbp:instrument NMR spectrometer
gptkbp:limitation expensive equipment
complex data interpretation
low sensitivity for some nuclei
requires strong magnetic fields
sample size limitations
gptkbp:provides integration
relaxation times
multiplicity
chemical shift
spin-spin coupling
gptkbp:relatedTo gptkb:electron_paramagnetic_resonance_(EPR)
gptkb:magnetic_resonance_imaging_(MRI)
gptkbp:requires magnetometer
radiofrequency radiation
gptkbp:type NMR spectrum
free induction decay (FID)
gptkbp:usedFor quantitative analysis
structure determination
molecular dynamics study
gptkbp:usedIn gptkb:medicine
biochemistry
chemistry
physics
gptkbp:bfsParent gptkb:Molecular_Beam_Magnetic_Resonance_Method
gptkbp:bfsLayer 5