Engineering & Materials Science
Nuclear magnetic resonance
100%
Nanodiamonds
70%
Spin-lattice relaxation
51%
Paramagnetic resonance
34%
Detonation
21%
Intercalation compounds
20%
Relaxation time
20%
Fullerenes
20%
Thallium
20%
Magnetic resonance
19%
Diamonds
19%
Relaxation
16%
Nanoparticles
15%
Electrons
14%
Ions
14%
Phase transitions
13%
Carbon
13%
Molecules
13%
Defects
12%
Atoms
12%
Layered semiconductors
11%
Semiconductor materials
11%
Temperature
11%
Electronic structure
10%
Graphite
9%
Fluorine
8%
Dangling bonds
7%
Exchange coupling
7%
Wave functions
7%
Magic angle spinning
7%
Protons
6%
Magnetic susceptibility
6%
Diamagnetism
6%
Graphene
5%
Powders
5%
Impurities
5%
Nanocarbon
5%
Conduction bands
5%
Zeolites
5%
Thioureas
5%
Chlorine
5%
Chemical Compounds
Nanodiamond
57%
Spin-Lattice Relaxation
37%
Detonation
25%
Nuclear Spin
22%
Magnetic Resonance
20%
NMR Spectroscopy
20%
Diamond
18%
EPR Spectroscopy
16%
Electron Spin
15%
Thallium
13%
Semiconductor
12%
Time
9%
Clathrate
9%
Paramagnetic Center
8%
Graphite
8%
Intercalation Compound
8%
NMR Spectrum
8%
NQR Spectrum
7%
Ion
7%
Nanoparticle
7%
Carbon Atom
7%
Surface
7%
19F NMR Spectroscopy
7%
Resonance
7%
Dangling Bond
6%
Electronic State
5%
Wave Function
5%
Molecule
5%
Magnetization
5%
Quadrupole
5%
Physics & Astronomy
nuclear magnetic resonance
70%
spin-lattice relaxation
27%
nuclear spin
24%
detonation
16%
thallium
14%
magnetic resonance
13%
graphite
13%
fullerenes
12%
relaxation time
12%
diamonds
12%
intercalation
11%
thioureas
10%
nanoparticles
9%
molecules
8%
ions
8%
fluorine
8%
interactions
7%
carbon
7%
molecular diffusion
6%
inclusions
6%
electronic structure
6%
defects
6%
echoes
6%
electron spin
5%
electron paramagnetic resonance
5%
atoms
5%
shielding
5%
nuclear quadrupole resonance
5%
chlorine
5%
dipoles
5%
zeolites
5%
