Keyphrases
Heat Treatment
100%
Ytterbium-doped
100%
Glass-ceramics
100%
Optical Glass
100%
Phosphate
66%
Doped Glass
66%
Irradiation
66%
Borosilicate
66%
Glass Based
66%
Crystallization Behavior
66%
Yb3+
66%
Biomedical Applications
33%
Water Absorption
33%
Emission Spectrum
33%
Rutile
33%
Healthcare
33%
Ytterbium
33%
Photonics
33%
Structure-property Relationships
33%
Network Form
33%
Aluminum Oxide
33%
Oxides
33%
Self-recovery
33%
Hygroscopicity
33%
Oxide-oxide
33%
Material Performance
33%
Effective Approach
33%
Fiber Design
33%
Glass Composition
33%
Sodium Oxide
33%
Zinc Oxide
33%
Emissive
33%
Design Strategy
33%
Crystallization
33%
Borosilicate Glass
33%
Thermal Radiation
33%
Fiber Geometry
33%
Defect Formation
33%
Oxyfluorophosphate Glasses
33%
Tellurite
33%
Degradation Kinetics
33%
Radiation Resistance
33%
Electron Beam Radiation
33%
Radiation Therapy
33%
Hydrolytic Stability
33%
Radiation Effects
33%
Resorption
33%
Support Optimization
33%
Water Resistance
33%
Tellurite Glass
33%
Dissolution Profile
33%
Fluorine Content
33%
Transparent Glass-ceramics
33%
Compositional Variation
33%
Stability Improvement
33%
Rectangular Geometry
33%
Recovery Potential
33%
Post-treatment Process
33%
Low Defect
33%
Greater Self
33%
Proton Radiation
33%
Radiation Modification
33%
Bandwidth Profile
33%
Stability Profile
33%
Spectroscopic Performance
33%
Fluorine Concentration
33%
Behaviour Spectrum
33%
Defect Creation
33%
Ytterbium Ion
33%
Germanate
33%
Thermal Modification
33%
Performance Attributes
33%
Compositional Modification
33%
Stability in Aqueous Solutions
33%
Radiation Sensitivity
33%
Material Science
Ytterbium
100%
Optical Glass
100%
Glass Ceramics
100%
Heat Treatment
60%
Borosilicate
40%
Tellurite
40%
Oxide Compound
20%
Wettability
20%
Aluminum Oxide
20%
Zinc Oxide
20%
Titanium Oxide
20%
Glass Composition
20%
Germanate
20%
Phase Composition
20%
Glass Fiber
20%
Borosilicate Glass
20%