Engineering & Materials Science
Protons
94%
Nuclear magnetic resonance
93%
Titanium
75%
Relaxation time
61%
Activation energy
32%
Temperature
31%
Spin-lattice relaxation
30%
Bond length
23%
Linewidth
19%
Positive ions
19%
Enthalpy
15%
Molecules
15%
Geometry
9%
Physics & Astronomy
disulfides
100%
titanium
64%
nuclear magnetic resonance
62%
relaxation time
61%
protons
50%
activation energy
38%
spin-lattice relaxation
27%
enthalpy
23%
cations
21%
temperature dependence
16%
temperature
15%
geometry
14%
molecules
13%
Chemical Compounds
Disulfide
64%
Proton
51%
Reaction Activation Energy
36%
Diffusion
32%
Spin-Lattice Relaxation
30%
NMR Signal
29%
Time
28%
Bond Length
22%
Enthalpy
20%
Cation
15%
Molecule
9%