pl. Uniwersytecki
Zainteresowania
- materials
- luminescence thermometry
- pr 3 luminescence
- high temperature phosphors
- intra and interconfigurational transitions
- ceramics
- thermoluminescence
- bandgap engineering
- pr3
- tb3
Najnowsze publikacje
- Pressure-driven configurational crossover between 4f7 and 4f65d1 States – Giant enhancement of narrow Eu2+ UV-Emission lines in SrB4O7 for luminescence manometry.
- Bandgap engineering and excitation energy alteration to manage luminescence thermometer performance. The case of Sr2 (Ge,Si)O4:Pr3+
- Exploiting bandgap engineering to finely control dual-mode Lu2(Ge,Si)O5:Pr3+ luminescence thermometers.
- Eu2+ emission from thermally coupled levels – new frontiers for ultrasensitive luminescence thermometry.
- Supersensitive Ratiometric Thermometry and Manometry Based on Dual‐Emitting Centers in Eu2+/Sm2+ ‐Doped Strontium Tetraborate Phosphors
- The comparison of the thermometric performance of optical ceramics, microcrystals and nanocrystals of Cr3+- doped Gd3Ga5O12 garnets
- Tm2+ activated SrB4O7 bifunctional sensor of temperature and pressure : highly sensitive, multi‐parameter luminescence thermometry and manometry.
- Y2(Ge,Si)O5:Pr phosphors : multimodal temperature and pressure sensors shaped by bandgap management.
- Co-doping to extend the operating range of luminescence thermometers. The case of Y2SiO5:Pr3+,Tb3+
- Effect of Ge:Si ratio and charging energy on carriers trapping in Y2(Ge,Si)O5:Pr powders observed with thermoluminescence methods.
- Tracing mechanism of optically and thermally stimulated luminescence in Lu2O3:Tb,M (M = Hf,Zr, Ti) ceramic storage phosphors.
- Tailoring the energy storage properties of the Lu2(Ge,Si)O5:Pr phosphors varying the Ge:Si ratio.
- Investigation of archaeological amphorae from the Egadi battles
- Widening the temperature range of luminescent thermometers through the intra- and interconfigurational transitions of Pr3+
