Litcius/Paper detail

Designing high thermally stable deep red phosphors based on low thermal expansion coefficients for optical applications

Jianqiang Sun, Mochen Jia, Wei Xu, Mingli Wang, Zhen Sun

2024Optics Letters14 citationsDOI

Abstract

Mn 4+ -activated oxide phosphors with low cost and unique luminescent properties have been considered as a promising candidate for various optical applications, while the search for high thermal stable red-emitting phosphors is still a huge challenge. In our work, we find and unveil the relationship between luminescence thermal quenching behavior and thermal expansion coefficients ( α /10 −6 K −1 ) based on double-perovskite niobate phosphors Ca 2 LnNbO 6 :Mn 4+ (Ln 3+ = Y 3+ , Gd 3+ , La 3+ , or Lu 3+ ). It can be concluded that the phosphors with low thermal expansion coefficients contribute to high thermal stability. Subsequently, Ca 2 LuNbO 6 :Mn 4+ accomplishes accurate temperature testing and high-CRI white light-emitting diodes. Thus, a thermal expansion coefficient strategy is a new guide to select the appropriate substrate with high thermal stability for an Mn 4+ -activated emitter.

Topics & Concepts

PhosphorThermal expansionMaterials scienceThermal stabilityLuminescenceCommon emitterThermalOptoelectronicsDiodeOpticsComposite materialChemical engineeringThermodynamicsPhysicsEngineeringLuminescence Properties of Advanced MaterialsMicrowave Dielectric Ceramics SynthesisPerovskite Materials and Applications