Material Science
Temperature
100%
Metal
84%
Superconductivity
84%
Particle
76%
Devices
46%
Density
45%
Electronic Property
43%
Particle Property
37%
Cuprate
37%
Superconducting Material
37%
Transition Metal
34%
Monolayers
28%
Optical Property
28%
Materials Class
22%
Semiconductor Material
18%
Lattice Constant
18%
Copper
18%
Ferroelectric Material
18%
Electronic Structure Calculation
18%
Thermal Conductivity
18%
Nucleation
18%
Color
18%
Chromium
18%
Anisotropy
18%
High-Temperature Superconductivity
18%
Shrinkage
18%
Halide
18%
Oxide Compound
18%
Boron
18%
Two-Dimensional Material
18%
Vanadium
18%
Surface (Surface Science)
18%
Magnetic Property
16%
Lattice Vibration
9%
Ferromagnetism
9%
Barium
9%
Stiffness
9%
Film
9%
Diamond
9%
Optical Spectroscopy
6%
High Temperature Superconductors
6%
Chemistry
Electronic State
84%
Quasiparticle
60%
Electron Particle
52%
electronics
49%
Nonconductor
39%
Reaction Mechanism
35%
Reaction Temperature
34%
Superconductivity
28%
Mean-Field Theory
28%
Exciton
28%
Valence Band
28%
Electronic Band Structure
24%
Metal
23%
Superconductor
20%
First Principle
19%
Density Functional Theory
18%
Dioxygen
18%
Tin
18%
Vanadium Dioxide
18%
Metal Insulator Transition
18%
Electronic Property
18%
Electron Mobility
18%
Band Gap
18%
Long-Range Order
18%
Angle-Resolved Photoemission Spectroscopy
18%
Photoemission
18%
Boron Atom
18%
Thermal Conductivity
18%
Spin Fluctuation
17%
Application
17%
Drop
12%
Order Parameter
12%
Valance Band
12%
Concentration
10%
Crystal Structure
9%
Energy
9%
Antiferromagnetic
9%
Ultrafast Spectroscopy
9%
Body-Centered Tetragonal Crystal System
9%
Band Structure Calculations
9%
Electronic Transition
9%
Optoelectronics
9%
Halogen
9%
Tight Binding Model
8%
Local-Density Approximation
8%
Self-Energy
7%
Doped Compound
6%
Spin Gap
6%
Physics
Metal
70%
First-Principles
56%
Quasiparticle
55%
Field Theory
37%
Exciton
34%
Spectrometer
32%
Calculation
26%
Axial Strain
21%
Utilization
20%
Phonon
18%
Approximation
18%
Black Phosphorus
18%
Copper Oxide
18%
Dioxide
18%
Chemical Bond
18%
High Temperature Superconductivity
12%
Optoelectronics
9%
Green's Functions
9%
Coherence
9%
Fermi Surface
9%
Inelastic Neutron Scattering
9%
Bethe-Salpeter Equation
6%
Monte Carlo
6%
Local Density Approximation
6%
Spin-Orbit Coupling
6%
Behavior
6%
Holes (Electron Deficiencies)
6%