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VUV–Vis luminescent properties of BaCaBO₃F doped with Ce³⁺ and Tb³⁺
Huihong LIN
, Guobin ZHANG
, Peter Anthony TANNER
, Hongbin LIANG
Department of Science and Environmental Studies (SES)
Research output
:
Contribution to journal
›
Articles
›
peer-review
37
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Citations (Scopus)
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Dive into the research topics of 'VUV–Vis luminescent properties of BaCaBO₃F doped with Ce³⁺ and Tb³⁺'. Together they form a unique fingerprint.
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Keyphrases
Luminescent Properties
100%
Vacuum Ultraviolet
100%
Copyright
50%
High Temperature
50%
Host Lattice
50%
Energy Levels
50%
Spectroscopic Properties
50%
Crystal-field Levels
50%
Emission Spectrum
50%
Diffuse Reflectance Spectra
50%
Band Gap
50%
Energy Transfer
50%
Excitation Spectrum
50%
Energy Transfer Efficiency
50%
Migration Regimes
50%
Green Emission
50%
Stokes Shift
50%
Energy Decay
50%
Decay Measurements
50%
Shift Factor
50%
Decay Lifetime
50%
Dopant Ions
50%
Ultraviolet Region
50%
Position Level
50%
Spin-forbidden
50%
Solid-state Method
50%
Emission Color
50%
Exciton
50%
Wide Bandgap
50%
Color Tunability
50%
Huang-Rhys Factor
50%
Absorption Bands
50%
Excitation Wavelength
50%
Maximum Intensity
50%
UV Emission
50%
Weak Emissions
50%
Ion Concentration
50%
Charge-compensated
50%
Vacuum Ultraviolet Excitation
50%
Level Measurement
50%
Near-UV
50%
Concentration Quenching
50%
Engineering
Energy Engineering
100%
Energy Gap
100%
Crystal Field
50%
Host Lattice
50%
Reflectance Spectrum
50%
Diffuse Reflectance
50%
Green Emission
50%
Dopants
50%
Defects
50%
Critical Distance
50%
Stokes Shift
50%
Emission Color
50%
Ion Concentration
50%
Emission Spectra
50%
Excitation Spectrum
50%
State Reaction
50%
Chemistry
Luminiscence Type
100%
Band Gap
100%
Energy Transfer
100%
Crystal Field
50%
Emission Spectra
50%
Doping Material
50%
Exciton
50%
Solid State Reaction
50%
Material Science
Doping (Additives)
100%