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Defect Regulation of Terbium-Doped Y<sub>2</sub>Zr<sub>2</sub>O<sub>7</sub> Transparent Ceramic for Wide-Range Multimode Tunable Light-Shielding Windows

Kailei Lu, Yucheng Ye, Wenhan Han, Cong Zhang, Lexing Liang, Haifeng Yuan, Yanli Shi, Jianqi Qi, Tien‐Chang Lu

2022The Journal of Physical Chemistry Letters22 citationsDOI

Abstract

In the most promising new window materials, the light-blocking property of the state-of-the-art transparent polycrystalline ceramics is still located in the UV range, which undoubtedly limits their applications. Herein, a transparent Y2Zr2O7:Tb (YZO:Tb) ceramic for light-shielding windows was prepared by a solid-state reaction and vacuum sintering method. Two simple and efficient routes, with doping concentrations varying and air-annealing temperatures regulating, were developed for the first time to control the content of defect clusters [TbY4+–O2––TbY4+] and [TbY4+–e•], enabling the optical cutoff waveband of these ceramics spanning from UV and BV to green light. These defect clusters generated from an air-annealing process were proposed for the relevant reaction mechanisms concerning light erasure behavior. The controllably tailoring of optical cutoff wavelength from Tb single-doped YZO ceramics, adjusted by defect clusters, may open a novel door to develop lanthanide-doped transparent ceramics for wide-range tunable light-shielding windows.

Topics & Concepts

TerbiumMaterials scienceCeramicTransparent ceramicsDopingOptoelectronicsMulti-mode optical fiberOpticsOptical fiberPhysicsComposite materialLuminescenceLuminescence Properties of Advanced MaterialsMicrowave Dielectric Ceramics SynthesisGlass properties and applications
Defect Regulation of Terbium-Doped Y<sub>2</sub>Zr<sub>2</sub>O<sub>7</sub> Transparent Ceramic for Wide-Range Multimode Tunable Light-Shielding Windows | Litcius