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Rapid synthesis of phosphor-glass composites in seconds based on particle self-stabilization

Yongsheng Sun, Yuzhen Wang, Weibin Chen, Qingquan Jiang, Dongdan Chen, Guoping Dong, Zhiguo Xia

2024Nature Communications109 citationsDOIOpen Access PDF

Abstract

Abstract Phosphor-glass composites (PGC) are excellent candidates for highly efficient and stable photonic converters; however, their synthesis generally requires harsh procedures and long time, resulting in additional performance loss and energy consumption. Here we develop a rapid synthetic route to PGC within about 10 seconds, which enables uniform dispersion of Y 3 Al 5 O 12 :Ce 3+ (YAG:Ce) phosphor particles through a particle self-stabilization model in molten tellurite glass. Thanks for good wettability between YAG:Ce micro-particles and tellurite glass melt, it creates an energy barrier of 6.94 × 10 5 zJ to prevent atomic-scale contact and sintering of particles in the melt. This in turn allows the generation of YAG:Ce-based PGC as attractive emitters with high quantum efficiency (98.4%) and absorption coefficient (86.8%) that can produce bright white light with luminous flux of 1227 lm and luminous efficiency of 276 lm W −1 under blue laser driving. This work shows a generalizable synthetic strategy for the development of functional glass composites.

Topics & Concepts

PhosphorMaterials scienceComposite materialLuminous fluxWettingParticle (ecology)LaserDispersion (optics)Luminous efficacyParticle sizeOptoelectronicsChemical engineeringOpticsLayer (electronics)OceanographyLight sourcePhysicsGeologyEngineeringLuminescence Properties of Advanced MaterialsPerovskite Materials and ApplicationsSolid State Laser Technologies