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A Copper Iodide Cluster-Based Coordination Polymer as an Unconventional Zero-Thermal-Quenching Phosphor

Huixian Miao, Xiancheng Pan, Miao Li, Wenjiang Zhaxi, Jing Wu, Zetao Huang, Luying Liu, Xiao Ma, Shenlong Jiang, Wei Huang, Qun Zhang, Dayu Wu

2022Inorganic Chemistry32 citationsDOI

Abstract

Phosphor-converted white light-emitting diodes (pc-wLEDs) are promising candidates for next-generation solid-state lighting and display technologies. However, most of the conventional phosphors in pc-wLED devices suffer from serious thermal quenching (TQ) at high temperatures. Herein, we investigate an unconventional high-efficiency metal–halide cluster-based phosphor with dynamic Cu–Cu interactions that can resist the TQ effect of photoluminescence. The temperature-dependent structure and solid-state and in situ NMR spectroscopy reveal that the weakening of the Cu–Cu interaction in such a phosphor system enables the electronic structural transition from a bonding to a nonbonding state and hence sustains the PL efficiency at high temperatures (up to 100 °C). The pc-wLEDs incorporating the zero-TQ phosphor show a rapid brightness rise even at a high bias current (1000 mA) with a color rendering index as high as 90, comparable to the commercial phosphor-based prototype LEDs (e.g., YAG:Ce3+). This work establishes a novel prototype of a cluster-based phosphor featuring dynamic intermetallic interactions, which paves the way for the exploration of pc-wLEDs against thermal quenching.

Topics & Concepts

PhosphorChemistryPhotoluminescenceColor rendering indexOptoelectronicsLuminescenceQuenching (fluorescence)Light-emitting diodeAnalytical Chemistry (journal)OpticsFluorescenceMaterials sciencePhysicsChromatographyNanocluster Synthesis and ApplicationsPerovskite Materials and ApplicationsInorganic Chemistry and Materials
A Copper Iodide Cluster-Based Coordination Polymer as an Unconventional Zero-Thermal-Quenching Phosphor | Litcius