gptkbp:instanceOf
|
analytical technique
|
gptkbp:basedOn
|
nuclear magnetic resonance
|
gptkbp:canBe
|
gptkb:solution_NMR
gptkb:1D_NMR
gptkb:2D_NMR
solid-state NMR
|
gptkbp:commonlyAnalyzes
|
carbon nuclei
hydrogen nuclei
phosphorus nuclei
fluorine nuclei
|
gptkbp:detects
|
chemical environment of nuclei
magnetic properties of atomic nuclei
connectivity of atoms
conformation of molecules
purity of samples
|
gptkbp:firstDemonstrated
|
1946
|
gptkbp:fullName
|
gptkb:Nuclear_Magnetic_Resonance_Spectroscopy
|
https://www.w3.org/2000/01/rdf-schema#label
|
NMR Spectroscopy
|
gptkbp:inventedBy
|
gptkb:Isidor_Isaac_Rabi
|
gptkbp:limitation
|
expensive equipment
complex data interpretation
low sensitivity for some nuclei
requires large sample amounts
|
gptkbp:NobelPrizeYear
|
gptkb:Edward_Purcell
gptkb:Felix_Bloch
1952
|
gptkbp:output
|
NMR spectrum
|
gptkbp:primaryUse
|
gptkb:medicine
biochemistry
chemistry
materials science
physics
|
gptkbp:relatedTo
|
gptkb:electron_paramagnetic_resonance
MRI
|
gptkbp:requires
|
strong magnetic field
radiofrequency radiation
|
gptkbp:technique
|
gptkb:HMBC
gptkb:HSQC
gptkb:NOESY
gptkb:TOCSY
gptkb:COSY
gptkb:proton_NMR
carbon-13 NMR
fluorine-19 NMR
phosphorus-31 NMR
DEPT
DOSY
ROESY
TROSY
|
gptkbp:usedFor
|
chemical analysis
structure determination
molecular dynamics studies
|
gptkbp:bfsParent
|
gptkb:Nuclear_Magnetic_Relaxation
gptkb:Nuclear_Magnetic_Spectroscopy
gptkb:Nuclear_Magnetic_Resonance_Spectroscopy
|
gptkbp:bfsLayer
|
7
|