Engineering & Materials Science
Superalloys
100%
Single crystals
83%
Dendrites (metallography)
78%
Lithium
63%
Aluminum
57%
Anodes
57%
Ions
56%
Nucleation
47%
Cathodes
45%
Nickel
43%
Metals
36%
Density functional theory
35%
Energy storage
30%
Electronic properties
29%
Ruthenium
28%
Microspheres
25%
Carbon nanotubes
24%
Heterojunctions
24%
Nitrogen
23%
Interfacial energy
23%
Aberrations
22%
Electron microscopes
22%
Electrolytes
22%
Zinc
20%
Electrodes
19%
Crystal orientation
19%
Graphitic Carbon Nitride
19%
Cathode materials
18%
Atoms
17%
Electronic structure
17%
Sodium-ion batteries
17%
Liquids
15%
Tellurium
15%
Reduced Graphene Oxide
14%
Dislocations (crystals)
14%
Transmission electron microscopy
14%
Precipitates
14%
Lithium-ion batteries
14%
Intercalation
14%
Nanosheets
14%
Discrete Fourier transforms
14%
Strengthening (metal)
13%
Current density
13%
High resolution transmission electron microscopy
12%
Chemical analysis
12%
Vacancies
12%
Electron diffraction
12%
Twinning
12%
Doping (additives)
12%
Nanowires
11%
Chemical Compounds
Superalloys
96%
Cathode
54%
Single Crystalline Solid
51%
Energy Storage
44%
Anode
44%
Solute
35%
Nucleation
33%
Twin Boundary
29%
Density Functional Theory
25%
Metal
24%
Energy
23%
Selenide
21%
Nitrogen-Doped Carbon Nanotube
19%
Alloy
18%
Interfacial Energy
18%
Intercalation Compound
18%
Misfit Dislocation
17%
Current Density
17%
Linear Dislocation
16%
Porosity
16%
Electronic Property
15%
Electron Particle
15%
Aluminium Ion
14%
Behavior as Electrode
14%
Elastic Deformation
13%
Interplanar Spacing
13%
Graphene
13%
Electrode Reaction
13%
Stacking Fault
12%
Ion
12%
Diffusion
12%
Creep
11%
Body-Centered Cubic Crystal System
11%
Charge Density
11%
Selected Area Electron Diffraction
11%
Nanoplatelet
11%
Foil
10%
Nanosheet
10%
Liquid
10%
Zinc Ion
10%
Density of State
10%
Oxalonitrile
9%
Transmission Electron Microscopy
9%
Lattice Parameter
9%
Alkali
9%
Dislocation Loop
8%
Hydrochloride
8%
Electronic State
8%
Nanowire
8%
Physics & Astronomy
heat resistant alloys
43%
dendrites
26%
electric batteries
25%
solutes
25%
Laves phases
22%
interface stability
21%
lithium
19%
accumulators
18%
density functional theory
17%
intermetallics
16%
alloying
16%
matrices
15%
electronics
14%
energy storage
13%
anodes
13%
ductility
12%
atoms
12%
single crystals
11%
nickel
11%
electronic structure
11%
specific heat
10%
cobalt
10%
enthalpy
10%
elastic deformation
10%
commercialization
9%
tensile tests
9%
metals
9%
elastic properties
9%
templates
8%
modulus of elasticity
8%
interfacial energy
8%
tendencies
8%
twinning
8%
phase transformations
8%
performance
8%
tungsten
7%
nanowires
7%
acceleration (physics)
6%
life span
6%
energy
6%
nucleation
6%
mechanical properties
6%
hardness
6%
cycles
5%
porosity
5%
microstructure
5%
defects
5%
shear
5%
