Composite structure Al
 2O
 3/Al
 2O
 3–YAG:Ce/YAG ceramics with high color spatial uniformity for white laser lighting

Sang, Pengfei; Zhang, Le; Kang, Jian; Li, Mingzhou; Chen, Shiwei; Yang, Peng; Sun, Bingheng; Li, Yang; Strek, Wieslaw; Chen, Hao

doi:10.26599/jac.2024.9220840

Journal of Advanced Ceramics

2024

DOI: 10.26599/jac.2024.9220840

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Composite structure Al ₂O ₃/Al ₂O ₃–YAG:Ce/YAG ceramics with high color spatial uniformity for white laser lighting

Pengfei Sang,

Le Zhang,

Jian Kang

et al.

Abstract: Composite ceramic phosphor (CCP) is a candidate light-conversion material to obtain the high-quality laser lighting source. Phosphors based on the transmissive configuration model could not simultaneously meet the requirements of angular color uniformity and high thermal stability. In this study, a novel composite structure ceramic was designed, including Al 2 O 3 -YAG:Ce/YAG layered ceramic with a size of 1 mm × 1 mm for lighting, and Al 2 O 3 ceramic (φ = 16.0 mm) was used as the wrapping material due to its… Show more

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Cited by 3 publications

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High luminous efficiency and high saturation threshold in highly transparent LuAG:Ce phosphor ceramics for laser diodes lighting

Chen,

Zhang,

Zhou

et al. 2024

Opt. Express

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Lu3Al5O12:Ce (LuAG:Ce) phosphor ceramics (PCs) with the excellent thermal stability and high saturation threshold are considered as the best green-fluorescent converters for high-power laser diodes (LDs) lighting. In this study, the effects of sintering additives and sintering processes on the transmittance and microstructure of LuAG:Ce PCs were systematically studied, and the luminescence performance of ceramics with different transmittance was compared. LuAG:Ce PCs with the transmittance of 80% (@800 nm, 1.5 mm) were obtained by using 0.1 wt.% MgO and 0.5 wt.% TEOS as sintering additives, combined with optimized vacuum pre-sintering and hot isostatic pressing. Compared to the non-HIP samples, the transmittance had increased by 11%. The microstructure of ceramics indicated that high transparency was closely related to the decrease in intergranular pores. Notably, the luminous efficiency of 253 lm/W and its saturation thresholds of > 46 W/mm2 were obtained simultaneously in green-emitting LDs devices. Moreover, under 3W laser irradiation, highly transparent ceramics had the low surface temperature of 66.4 °C, indicating the good heat dissipation performance. The observed high luminous efficiency and high saturation threshold of LuAG:Ce PCs were attributed to fewer pores and oxygen vacancies. Therefore, this work proves that highly transparent LuAG:Ce PCs are promising green-fluorescent converters for high-power LDs lighting.

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High luminous efficiency and high saturation threshold in highly transparent LuAG:Ce phosphor ceramics for laser diodes lighting

Chen,

Zhang,

Zhou

et al. 2024

Opt. Express

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Rod-shaped LuAG:Ce transparent ceramic enabling ultrahigh forward efficiency for laser lighting in a transmissive mode

Kang,

Liu,

Liu

et al. 2024

Opt. Lett.

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Ceramic phosphors have high thermal conductivity and high thermal stability, showing great potential for use in laser lighting. However, it is difficult to further improve the forward efficiency in transmissive mode because of the arbitrarily emitting ceramic phosphors and light loss by secondary optical components. Here, an effective design of rod-shaped LuAG:Ce transparent ceramics was proposed, and the silicone encapsulated ceramic-based devices could operate stably under 3.5 W laser excitation, possessing a luminous efficiency of 150–180 lm/W, far exceeding the level of existing commercial transmissive mode. Besides, because of the gradual absorption of blue light and the gradient distribution of heat, the rod-shaped LuAG:Ce transparent ceramics could bear a power density of 46 W/mm2 without luminous saturation, and the thermal-induced luminous degradation only accounted for 7% under a 15 min operation. The ceramic-based laser lighting sources with low divergence angle (∼4°) and uniform spatial distribution were obtained. Our optimized transparent ceramic rod and encapsulation scheme provided a solution to improve the efficiency of a transmissive mode for laser lighting.

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High recorded color rendering performance of single-structured Ce,Mn:Y ₃(Al,Sc) ₂Al ₃O ₁₂ phosphor ceramics for high-power white LEDs/LDs

Liu,

Yang,

et al. 2024

Journal of Advanced Ceramics

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Achieving high color rendering index (CRI) and luminous stability in single-structured Ce:YAG phosphor ceramics (PCs) is crucial for high-power white light-emitting diodes or laser diodes (LEDs/LDs). However, cyan valley and insufficient red component of the Ce:YAG emission spectra significantly limit their real applications. In this work, a series of Ce,Mn:Y3(Al,Sc)2Al3O12 (Ce,Mn:YSAG) PCs J u s t A c c e p t e dwere fabricated by the vacuum sintering, and an efficient spectral regulation was realized for full-color lighting. The cyan valley was filled by blue-shifted emission peak of Ce 3+ via Sc 3+ doping. The orange-red emission around 580 nm was effectively supplemented via Mn 2+ doping. Particularly, the CRI of Ce,Mn:YSAG increased from 56.4 to 85.8 with a 52% increment compared with Ce:YAG under high-power LED excitation, and the operating temperature was stable at about 50 ℃ under long working time. Meanwhile, the CRI values of 80.9 could still be obtained in PC based white LDs.These results indicated that Ce,Mn:YSAG PC with excellent CRI and luminous stability is an extremely promising color convertor for high-power white LEDs/LDs.

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Composite structure Al ₂O ₃/Al ₂O ₃–YAG:Ce/YAG ceramics with high color spatial uniformity for white laser lighting

Cited by 3 publications

References 57 publications

High luminous efficiency and high saturation threshold in highly transparent LuAG:Ce phosphor ceramics for laser diodes lighting

High luminous efficiency and high saturation threshold in highly transparent LuAG:Ce phosphor ceramics for laser diodes lighting

Rod-shaped LuAG:Ce transparent ceramic enabling ultrahigh forward efficiency for laser lighting in a transmissive mode

High recorded color rendering performance of single-structured Ce,Mn:Y ₃(Al,Sc) ₂Al ₃O ₁₂ phosphor ceramics for high-power white LEDs/LDs

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Composite structure Al 2O 3/Al 2O 3–YAG:Ce/YAG ceramics with high color spatial uniformity for white laser lighting

Cited by 3 publications

References 57 publications

High luminous efficiency and high saturation threshold in highly transparent LuAG:Ce phosphor ceramics for laser diodes lighting

High luminous efficiency and high saturation threshold in highly transparent LuAG:Ce phosphor ceramics for laser diodes lighting

Rod-shaped LuAG:Ce transparent ceramic enabling ultrahigh forward efficiency for laser lighting in a transmissive mode

High recorded color rendering performance of single-structured Ce,Mn:Y 3(Al,Sc) 2Al 3O 12 phosphor ceramics for high-power white LEDs/LDs

Contact Info

Product

Resources

About

Composite structure Al ₂O ₃/Al ₂O ₃–YAG:Ce/YAG ceramics with high color spatial uniformity for white laser lighting

High recorded color rendering performance of single-structured Ce,Mn:Y ₃(Al,Sc) ₂Al ₃O ₁₂ phosphor ceramics for high-power white LEDs/LDs