Interested

• materials
• physical chemistry
• luminescence
• chemical physics
• storage phosphors
• carriers trapping
• energy storage materials
• thermoluminescence
• applied physics
• lu2o3

Scientific discipline

• chemical sciences

Latest publications

• The effect of temperature and excitation energy of the high- and low-spin 4f→5d transitions on charging of traps in Lu₂O₃:Tb,M (M = Ti, Hf)
• Eu²⁺ emission from thermally coupled levels – new frontiers for ultrasensitive luminescence thermometry.
• Defects in hafnium-doped lutetium oxide and the corresponding electron traps: a meta-generalized gradient approximation study
• Properties of charge carrier traps in Lu₂O₃:Tb,Hf ceramic storage phosphors observed by high-pressure spectroscopy and photoconductivity.
• Fine structure in high resolution 4f⁷-4f⁶5d excitation and emission spectra of X-ray induced Eu²⁺ centers in LuPO₄:Eu sintered ceramics.
• On site-selective optically and thermally induced processes in Lu₂O₃:Tb,Ta storage phosphors.
• 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.
• Spectroscopic properties of high-temperature sintered SrS:0.05%Ce³⁺ under high hydrostatic pressure.
• On energy storage of Lu₂O₃:Tb,M (M=Hf, Ti, Nb) sintered ceramics : glow curves, dose-response dependence, radiation hardness and self-dose effect.
• The role of Ti in charge carriers trapping in the red-emitting Lu₂O₃:Pr,Ti phosphor.
• On thermoluminescence of Lu₂O₃:Tb,Ta ceramic storage phosphors.
• On thermoluminescence mechanism and energy leakage in Lu₂O₃:Tb,V storage phosphor.