In Situ Synthesis of β-Na1.5Y1.5F6: Er3+ Crystals in Oxyfluoride Silicate Glass for Temperature Sensors and Their Spectral Conversion and Optical Thermometry Analysis

Rajesh Dagupati; Robert Klement; Ramaraghavulu Rajavaram; José J Velázquez; Dušan Galusek

doi:10.3390/molecules26226901

In Situ Synthesis of β-Na₁.₅Y₁.₅F₆: Er³⁺ Crystals in Oxyfluoride Silicate Glass for Temperature Sensors and Their Spectral Conversion and Optical Thermometry Analysis

Molecules. 2021 Nov 16;26(22):6901. doi: 10.3390/molecules26226901.

Authors

Rajesh Dagupati¹, Robert Klement¹, Ramaraghavulu Rajavaram², José J Velázquez¹, Dušan Galusek^{1

3}

Affiliations

¹ FunGlass, Alexander Dubček University of Trenčín, Študentská 2, SK-911 50 Trenčín, Slovakia.
² Department of Physics, Annamacharya Institute of Technology & Sciences, Rajampet A.P-516115, India.
³ Joint Glass Centre of the IIC SAS, TnUAD and FChPT STU, Trenčín, Študentská 2, SK-911 50 Trenčín, Slovakia.

Abstract

Transparent oxyfluoride glass-ceramics (GCs) with embedded β-Na₁.₅Y₁.₅F₆ crystals doped with Er³⁺ ions were fabricated by a melt-quenching method with subsequent heat-treatment. The structural characterizations and spectroscopic techniques were performed to verify the precipitation of β-Na₁.₅Y₁.₅F₆ crystals and partition of the Er³⁺ dopant into the crystals. Bright green up-conversion (UC) emission was achieved in Er³⁺-doped glass-ceramic (Er-GC). Furthermore, the temperature-dependent visible UC behavior based on thermally coupled energy levels (TCLs) and non-thermally coupled energy levels (NTCLs) was also examined in the temperature range 298 k to 823 K with maximum relative sensitivity (S_r) of 1.1% K^-1 at 298 K for TCLs in Er-G and Er-GC samples.

Keywords: down-conversion; glass; glass-ceramic; optical thermometry; up-conversion.

Grants and funding

739566, APVV-17-0049 and VEGA 1/0527/18/European union and Slovak Research and Development Agency