Lingchun Jia scite author profile

Ce‐doped yttrium aluminum garnet (YAG) is among the efficient rare‐earth garnet scintillators and phosphors. Herein, a computational and experimental study of complex F‐type defect centers formed in YAG by doping with cerium and carbon is addressed. The formation energies determined by ab initio calculations of different defects and atomic chemical potentials in YAG:Ce,C are discussed in O‐poor and O‐rich conditions corresponding to the crystal growth under Ar+CO reducing atmosphere, and postgrowth annealing in air, respectively. It is shown that as‐grown crystals contain numerous positively charged defects responsible for F‐type center formation, whereas mainly negative‐charged defects are remained after the annealing in air. The negatively charged defects located nearby Ce luminescence center occupying Y site may stabilize cerium in the tetravalent state and promote a hole transport to this luminescence center. This describes a high scintillation efficiency of Ce,C‐doped garnets. Furthermore, YAG:C and YAG:Ce,C with a high carbon concentration, in addition to luminescence peaked at 400 ns ascribed to F+‐type centers, possess a fast luminescence peaked around 650 nm that may be attributed to the complex defect centers. These unveiled features of the luminescence process in rare‐earth garnets may contribute to the development of efficient luminescence materials.

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Dynamic instability of lithiated phosphorene

Jia

Yuan

Chang

et al. 2020

RSC Adv.

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Lingchun Jia

Luminescent Properties of ${\rm Lu}_{2}{\rm SiO}_{5}{\hbox{:}}{\rm Ce}$ Phosphors Codoped With Li Ions

Luminescent properties of Na-codoped Lu2SiO5:Ce phosphor

Effect of Li doping on the O vacancies in Lu2SiO5:Ce phosphors

Stability and electronic properties of O vacancies and Ce4+ in Lu2SiO5 tuned by C doping

Structural properties of Lu2SiO5 doped with rare-earth elements

Effect of cation doping on tuning intrinsic defects in LuI3

Effect of Carbon Doping on F‐Type Defects in YAG and YAG:Ce Crystals

Dynamic instability of lithiated phosphorene

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