Keyphrases
Transition Metal Phosphate
100%
Hydrothermal Synthesis
100%
Germanate
100%
Structural Chemistry
100%
High-pressure Hydrothermal
100%
Mild Hydrothermal
100%
High Pressure High Temperature
100%
Hydrothermal Conditions
100%
Organically-templated
100%
XPS Spectroscopy
50%
Amalgam
50%
XANES Spectroscopy
50%
Mixed-valence Compounds
50%
Nuclear Waste
50%
High-pressure Reaction
50%
Unusual Oxidation States
50%
Geological Repository
50%
Reducing Agent
50%
Silicate
50%
Uranyl Silicates
50%
Uranium(VI)
50%
Photoluminescence Properties
50%
Hydrothermal Reaction
50%
Uranium Silicate
50%
Oxidation State
50%
Synthetic Methods
50%
Ampoule
50%
Reaction Vessel
50%
Long-term Performance
50%
Uranium
50%
Chemistry
Hydrothermal Synthesis
100%
Transition Metal
100%
Uranium
100%
Structural Chemistry
66%
Crystal Structure
66%
Reducing Agent
33%
Radioactive Waste
33%
Mixed Valence
33%
Near Edge X Ray Absorption Fine Structure Spectroscopy
33%
Reaction Pressure
33%
Amalgam
33%
XANES Spectroscopy
33%
X Ray Photoemission Spectroscopy
33%
Photoluminescence
33%
Crystal Phase Property
33%
Material Science
Uranium
100%
Silicate
100%
Hydrothermal Synthesis
100%
Transition Metal Phosphates
66%
Germanate
66%
Crystal Structure
66%
X-Ray Absorption near Edge Structure
33%
Photoluminescence
33%
Transition Metal
33%
Reducing Agent
33%
Radioactive Waste
33%