Engineering & Materials Science
Nuclear magnetic resonance
93%
Paramagnetic resonance
49%
Protons
45%
Spin-lattice relaxation
44%
Phase transitions
44%
Proton irradiation
32%
Ferromagnetism
25%
Temperature
25%
Hydrogen
22%
Magnetic resonance measurement
18%
Electrons
18%
Carbon nanotubes
18%
Irradiation
18%
Magnetization
17%
Polarons
17%
Relaxation time
17%
Charge carriers
17%
Relaxation
17%
Superconducting transition temperature
16%
Chemical shift
15%
Magnetic relaxation
15%
Thin films
15%
Ferroelectric materials
14%
Vanadium
14%
Plasmas
13%
Multiwalled carbon nanotubes (MWCN)
13%
Proton beams
13%
Conducting polymers
13%
Doping (additives)
13%
Graphene nanoribbon
12%
Electric fields
12%
Order disorder transitions
12%
Graphene
12%
Conjugated polymers
12%
Density functional theory
11%
Sol-gels
11%
Bamboo
11%
Electric Conductivity
11%
Oxygen
10%
Topological insulators
10%
Magnetism
10%
Ferromagnetic resonance
10%
Oxides
10%
Charge transfer
10%
Ions
10%
Adsorption
10%
Spectroscopy
10%
Spin dynamics
9%
Derivatives
9%
Magnetic susceptibility
9%
Physics & Astronomy
nuclear magnetic resonance
100%
electron paramagnetic resonance
47%
protons
47%
proton irradiation
43%
spin-lattice relaxation
43%
carbon nanotubes
36%
vanadium oxides
31%
hydrogen
26%
magnetic relaxation
21%
irradiation
21%
insulators
18%
conduction
17%
oxygen plasma
17%
hydrogen bonds
17%
ferromagnetism
17%
transition temperature
17%
conducting polymers
16%
graphene
16%
temperature
15%
organic superconductors
15%
impedance
14%
proton beams
14%
relaxation time
14%
nanotubes
14%
chemical equilibrium
14%
electrical resistivity
14%
thin films
14%
disorders
13%
acids
12%
polymers
12%
room temperature
12%
graphite
12%
pyrolytic graphite
11%
spectroscopy
11%
charge carriers
11%
electroluminescence
10%
electric fields
10%
magnetization
10%
valleys
10%
spin dynamics
9%
gels
9%
tetrahedrons
9%
dosage
9%
defects
9%
nanoparticles
9%
polarons
9%
electrons
9%
single crystals
9%
hysteresis
8%
Chemical Compounds
NMR Spectroscopy
34%
Spin-Lattice Relaxation
29%
Electron Spin
22%
Proton
22%
Ferromagnetism
17%
EPR Spectroscopy
17%
Vanadium Oxide
14%
Nonconductor
14%
Hydrogen
13%
Antiferroelectricity
13%
Ferroelastic Phase Transition
13%
Order Disorder Transition
12%
Antiferromagnetic
12%
Electric Field
11%
Magnetization
11%
Charge Carrier
11%
Graphene
11%
Hysteresis
11%
Heisenberg Model
11%
Shallow Donor
10%
Polaron
10%
Multi Walled Nanotube
10%
Nanoribbon
9%
Lattice Dynamics
9%
Ambient Reaction Temperature
9%
Conducting Polymer
9%
Carbon Nanotube
9%
Anisotropy
8%
Superconductor
8%
Structural Phase Transition
8%
Electrical Conductivity
8%
Spin-Spin Relaxation
8%
Magnetism
7%
Ferromagnetic Resonance
7%
Magnetic Relaxation
7%
Electroluminescence
7%
Metal Insulator Transition
7%
Tight Binding Model
7%
Environment
6%
Compound Mobility
6%
Copper Hydroxide
6%
Conjugated Polymer
6%
Impedance Spectroscopy
6%
Conductivity
6%
Exchange Interaction
6%
Reaction Activation Energy
6%
Carbazole
6%
Liquid Film
6%
Monte Carlo Method
6%
Magnetic Property
6%