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Luminescence Temperature Quenching in Mn<sup>2+</sup> Phosphors

Arnoldus J. van Bunningen, Atul D. Sontakke, Ruben van der Vliet, Vincent G. Spit, Andries Meijerink

2023Advanced Optical Materials63 citationsDOIOpen Access PDF

Abstract

Abstract Narrower band red and green emission in phosphor‐converted white light‐emitting diodes (wLEDs) can improve the efficacy and color gamut in lighting and display applications. A promising luminescent ion is Mn 2+ that can have both narrowband green (tetrahedral coordination) and red (octahedral coordination) emission. Unlike in earlier lighting applications of Mn 2+ phosphors, temperature quenching is important in wLEDs. Insight into the thermal quenching behavior of Mn 2+ luminescence is lacking. Here systematic research is reported for a variety of Mn 2+ ‐doped phosphors; a huge variation in the luminescence quenching temperature T 50 , ranging from 50 K for Mn 2+ in ZnTe to 1200 K in MgAl 2 O 4 , is revealed. The value T 50 shows a positive correlation with the bandgap of the host, but no correlation with the full width half maximum (FWHM) of the emission band, indicating that thermally activated photoionization, not thermal crossover, is the operative quenching mechanism. This is confirmed by thermally stimulated luminescence (TSL) measurements that show a rise in TSL signal following photoexcitation at temperatures around T 50 providing evidence that quenching is correlated with generation of free charge carriers. Based on these findings, as a design rule is obtained that for temperature‐stable Mn 2+ luminescence in (high power) LEDs a wide‐bandgap host material is required.

Topics & Concepts

PhosphorLuminescenceMaterials scienceQuenching (fluorescence)OptoelectronicsPhotoluminescenceAnalytical Chemistry (journal)Full width at half maximumOpticsFluorescenceChemistryPhysicsChromatographyLuminescence Properties of Advanced MaterialsAdvanced Photocatalysis TechniquesGa2O3 and related materials
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