Material Science
Uranium
87%
Microsphere
83%
Density
44%
Nuclear Fuel
36%
Uranium Dioxide
30%
Sol-Gel
27%
Oxide Compound
27%
Film
21%
Phase Composition
17%
Silicon Carbide
17%
Cerium Oxide
16%
Uranium Oxide
16%
Zirconium
16%
Nitride Compound
16%
Nanoparticle
15%
Urea
14%
Photolysis
13%
Sintering
13%
Zirconia
12%
Raman Spectroscopy
11%
Superconducting Material
9%
Thin Films
9%
Feedstock
9%
Peroxide
9%
Enzymatic Hydrolysis
9%
Radioactive Waste
9%
Sodium
9%
Single Crystal
9%
Cerium
8%
Carbide
8%
Solvent Extraction
8%
Surface (Surface Science)
7%
Oxidation Reaction
7%
Yttrium
6%
Metal Oxide
6%
Doping (Additives)
6%
Energy-Dispersive X-Ray Spectroscopy
6%
Barium
6%
Conductor
6%
Carbon Nitride
5%
Calcination
5%
Coated Fuel Particles
5%
X-Ray Diffraction
5%
Gadolinium
5%
Sol-Gel Processing
5%
Lattice Constant
5%
Heat Treatment
5%
Scanning Electron Microscopy
5%
Grain Size
5%
Thermogravimetric Analysis
5%
Chemistry
Argon
100%
Infrared Radiation
83%
Hydrogen
44%
Uranium
37%
Fourier Transform Infrared Spectroscopy
33%
Hydrogen Fluoride
26%
Uranium Atom
24%
Raman Spectroscopy
21%
Raman Spectrometry
21%
Photolysis
21%
Uranium Oxide
17%
dimer
16%
formation
15%
Magnetism
15%
Fluorine
15%
Deuterium
14%
Uranium Dioxide
12%
Phonon
12%
Spin Fluctuation
9%
Vibrational Spectra
9%
Neutron Scattering
9%
Crystal Structure
9%
Superconductor
8%
Raman Spectra
7%
Lattice Dynamics
7%
IR Spectrum
7%
Purity
7%
Absorption Spectra
6%
Density Functional Theory
6%
Dioxygen
6%
Carbon Dioxide
6%
Reaction Activation Energy
5%
Vibrational Frequency
5%
Hydrogen Bonding
5%
Engineering
Gelation
28%
Nuclear Fuel
21%
Lattice Constant
12%
Department of Energy
11%
Microsphere
10%
Low-Temperature
10%
Nanoparticle
9%
Sintering
9%
Processing Technique
7%
Dopants
7%
Average Grain Size
7%
Lattice Parameter
7%
Pyrolysis
6%
Fuel Cycle
6%
Ray Diffraction
6%
High-Level Waste
6%
Getters
5%