Zhenwei Jia scite author profile

Broadband near-infrared (NIR)-emitting phosphors are key for next-generation smart NIR light sources based on blue LEDs. To achieve excellent NIR phosphors, we propose a strategy of enhancing the crystallinity, modifying the micromorphology, and maintaining the valence state of Cr3+ in Ca3Sc2Si3O12 garnet (CSSG). By adding fluxes and sintering in a reducing atmosphere, the internal quantum efficiency (IQE) is greatly enhanced to 92.3%. The optimized CSSG:6%Cr3+ exhibits excellent thermal stability. At 150 °C, 97.4% of the NIR emission at room temperature can be maintained. The fabricated NIR-LED device emits a high optical power of 109.9 mW at 520 mA. The performances of both the achieved phosphor and the NIR-LED are almost the best results until now. The mechanism for the optimization is investigated. An application of the NIR-LED light source is demonstrated.

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Electron–phonon coupling mechanisms of broadband near-infrared emissions from Cr³⁺ in the Ca₃Sc₂Si₃O₁₂ garnet

Jia

Yuan

et al. 2020

Phys. Chem. Chem. Phys.

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A novel red-emitting phosphor K₂MgGeO₄:Eu³⁺ for WLEDs: zero-thermal quenching induced by heterovalent substitution

et al. 2022

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Zhenwei Jia

Strategies to approach high performance in Cr3+-doped phosphors for high-power NIR-LED light sources

Electron–phonon coupling mechanisms of broadband near-infrared emissions from Cr³⁺ in the Ca₃Sc₂Si₃O₁₂ garnet

A novel red-emitting phosphor K₂MgGeO₄:Eu³⁺ for WLEDs: zero-thermal quenching induced by heterovalent substitution

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Zhenwei Jia

Strategies to approach high performance in Cr3+-doped phosphors for high-power NIR-LED light sources

Electron–phonon coupling mechanisms of broadband near-infrared emissions from Cr3+ in the Ca3Sc2Si3O12 garnet

A novel red-emitting phosphor K2MgGeO4:Eu3+ for WLEDs: zero-thermal quenching induced by heterovalent substitution

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Electron–phonon coupling mechanisms of broadband near-infrared emissions from Cr³⁺ in the Ca₃Sc₂Si₃O₁₂ garnet

A novel red-emitting phosphor K₂MgGeO₄:Eu³⁺ for WLEDs: zero-thermal quenching induced by heterovalent substitution