Journal
PHYSICA STATUS SOLIDI B-BASIC SOLID STATE PHYSICS
Volume 259, Issue 8, Pages -Publisher
WILEY-V C H VERLAG GMBH
DOI: 10.1002/pssb.202100475
Keywords
luminescence; nanophosphors; synchrotron radiation; vacuum ultraviolet spectroscopy
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Funding
- LZP (Latvijas Zinatnes Padome) grant [2020/2-0074]
- European Union [739508]
- [VPP-IZM-CERN-2020/1-0002]
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Vacuum ultraviolet excitation spectroscopy is a powerful tool for investigating luminescence properties of wide bandgap nanocrystalline phosphor materials. Selective excitation in a wide spectral range allows exploration of different luminescence processes in nanophosphors. The size-dependent luminescence properties of nanophosphors become significant when the electron thermalization length exceeds the nanoparticle size.
Vacuum ultraviolet (VUV) excitation spectroscopy under synchrotron irradiation is a powerful tool for the investigation of luminescence properties of wide bandgap nanocrystalline phosphor materials. The advantages of selective excitation in a wide spectral range present the possibility to explore the different aspects of luminescence processes in nanophosphors separately. It is shown that direct excitations of emission centers in wide bandgap materials need excitations in VUV spectral range and such excitations provide valuable information about f-f, f-d transitions, defects, and excitonic transitions in wide bandgap nanophosphors. It is also demonstrated that size-dependent luminescence properties of nanophosphors are significant if the electron thermalization length becomes larger than the size of the nanoparticles. In this case, multiplication of electronic excitations processes well-known in bulk materials are suppressed strongly in nanophosphors.
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