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Local Structure Regulation in Near-Infrared Persistent Phosphor of ZnGa<sub>2</sub>O<sub>4</sub>:Cr<sup>3+</sup> to Fabricate Natural-Light Rechargeable Optical Thermometer

Junqing Xiahou, Qi Zhu, Lin Zhu, Siyuan Li, Ji‐Guang Li

2021ACS Applied Electronic Materials49 citationsDOI

Abstract

Modern engineering fields put forward requirements for optical temperature sensors, which need natural-light excitation/storage and near-infrared (NIR) afterglow emission for some special conditions. Here, NIR persistent luminescent phosphors of ZnGa2–x(Mg/Ge)xO4:Cr3+ (x = 0–1.25) have been synthesized. The incorporation of Mg2+/Ge4+ ions in ZnGa2O4:Cr3+ resulted in more defect clusters of “MgGa′–GeGa•” and “ZnGa′–GeGa•” and interstitial oxygens (OInt). Increasing the calcination temperature and Mg2+/Ge4+ doping both contributed to the generation of OInt. Higher efficiency of visible light excitation was observed, mainly due to the defect clusters and OInt. The samples exhibited a bright NIR emission at 695 nm by exposure to UV or visible light, and the NIR signal can last longer than 1 h after the stoppage of excitation. Incorporation of Mg2+/Ge4+ and increasing the calcination temperature both resulted in a deeper trap depth. However, the density of trapped charge carriers takes the dominant role in the persistent luminescence. Therefore, the x = 0.25 sample, having the most trapped charge carriers, exhibits the best afterglow performance. The prepared phosphor exhibited a temperature-dependent persistent luminescence behavior, which can charge natural light and release NIR light repeatedly many times, indicating that they are the potential natural-light rechargeable materials for temperature sensing.

Topics & Concepts

PhosphorThermometerInfraredMaterials sciencePersistent luminescenceMineralogyOptoelectronicsLuminescenceOpticsChemistryPhysicsThermoluminescenceQuantum mechanicsLuminescence Properties of Advanced MaterialsGas Sensing Nanomaterials and SensorsGa2O3 and related materials