Engineering & Materials Science
Ions
100%
Superconducting materials
84%
Oxygen
74%
Manganites
74%
Superlattices
55%
Superconductivity
53%
Thin films
52%
Ionic conductivity
51%
Magnetoresistance
49%
Temperature
43%
Ionic liquids
35%
Single crystals
35%
Oxides
34%
Spectroscopy
34%
Doping (additives)
32%
Heterojunctions
31%
Activation energy
30%
Oxygen vacancies
29%
Magnetic anisotropy
27%
Positive ions
27%
Metal insulator transition
26%
Mott insulators
26%
Galvanomagnetic effects
24%
Transition metals
22%
Spintronics
21%
Magnetization
21%
X rays
21%
Relaxation
20%
Phase transitions
20%
Magnetic fields
19%
Solid solutions
19%
Chemical analysis
18%
Molecular beam epitaxy
17%
Transmission electron microscopy
17%
Powder metallurgy
17%
Carrier concentration
17%
Powders
16%
Electron-electron interactions
16%
Electrostatics
16%
Chromium
16%
Electric properties
15%
Mechanical properties
15%
Charge transfer
14%
Quantum confinement
14%
Microstructure
13%
Amorphous films
13%
Crystals
13%
Chemical Compounds
Superconductor
63%
Magnetoresistance
61%
Disorder
57%
Dioxygen
46%
Superconductivity
45%
Conductivity
39%
Ion
32%
Ambient Reaction Temperature
31%
Liquid Film
31%
Electron Spin
30%
Nonconductor
29%
Spintronics
28%
Oxide
27%
Metal Insulator Transition
27%
Magnetization
26%
Magnetic Field
25%
Ionic Conductivity
25%
Quasiparticle
23%
Single Crystalline Solid
22%
Magnetic Anisotropy
22%
Superlattice
21%
Ionic Liquid
21%
Strain
20%
Torque
19%
Powder Metallurgy
18%
Reaction Activation Energy
18%
Amorphous Material
18%
Yield Point
17%
Hall Effect
17%
Renormalization Group Theory
17%
Ferromagnetism
17%
Diffusion
17%
Molecular Beam Epitaxy
16%
Alloy
16%
Electrical Conductivity
16%
Josephson Effect
15%
Ising Model
15%
Tensile Strength
15%
Quenched Disorder
14%
Microstructure
14%
Solid Solution
14%
Ductility
14%
Electron Energy Loss Spectroscopy
14%
Tetragonal Space Group
13%
Cation
13%
Antiferromagnetic
13%
Resistance
13%
Electrical Property
13%
Naproxen Sodium
13%
Impedance Spectroscopy
12%
Physics & Astronomy
disorders
45%
oxygen ions
45%
conductors
43%
insulators
36%
oxides
35%
conductivity
31%
ions
31%
oxygen
30%
superconductivity
30%
electrostatics
28%
ion currents
27%
electronics
26%
scaling
26%
room temperature
25%
liquids
24%
superlattices
23%
thin films
23%
cuprates
23%
titanates
19%
activation energy
16%
transition metals
16%
magnetization
15%
temperature
15%
transport properties
15%
spectroscopy
15%
torque
15%
cations
14%
spacers
14%
tuning
13%
x ray absorption
12%
solid solutions
12%
switches
12%
yttria-stabilized zirconia
12%
synthesis
12%
magnetic fields
12%
ferromagnetism
12%
Hall effect
11%
energy dissipation
10%
single crystals
10%
x rays
10%
soaps
10%
electrical properties
10%
electron energy
10%
aberration
10%
mechanical properties
10%
critical point
10%
polymorphism
10%
cells
9%
x ray spectroscopy
9%
Josephson effect
9%