2018
DOI: 10.1021/acsami.8b03168
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Unique Color Converter Architecture Enabling Phosphor-in-Glass (PiG) Films Suitable for High-Power and High-Luminance Laser-Driven White Lighting

Abstract: As a next-generation high-power lighting technology, laser lighting has attracted great attention in high-luminance applications. However, thermally robust and highly efficient color converters suitable for high-quality laser lighting are scarce. Despite its versatility, the phosphor-in-glass (PiG) has been seldom applied in laser lighting because of its low thermal conductivity. In this work, we develop a unique architecture in which a phosphor-in-glass (PiG) film was directly sintered on a high thermally con… Show more

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Cited by 206 publications
(136 citation statements)
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“…Figure d–g is the cross‐sectional SEM images of PiG films with different PtG ratios (i.e., P1G4, P2G3, P3G2, and P4G1) at a fixed thickness of ≈50 µm, demonstrating that all PiG films are tightly bonded to the CSP substrate. With the increase of the PtG ratio, more pores generate in the PiG films because the lower glass content prefers to produce more trapped air in the microstructure during the sintering process . The XRD patterns of the PiG film (P2G3‐50) in Figure h indicate a pure crystalline LSN:Ce phase (ICSD 248709) and an amorphous hump from the glass matrix.…”
Section: Resultsmentioning
confidence: 99%
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“…Figure d–g is the cross‐sectional SEM images of PiG films with different PtG ratios (i.e., P1G4, P2G3, P3G2, and P4G1) at a fixed thickness of ≈50 µm, demonstrating that all PiG films are tightly bonded to the CSP substrate. With the increase of the PtG ratio, more pores generate in the PiG films because the lower glass content prefers to produce more trapped air in the microstructure during the sintering process . The XRD patterns of the PiG film (P2G3‐50) in Figure h indicate a pure crystalline LSN:Ce phase (ICSD 248709) and an amorphous hump from the glass matrix.…”
Section: Resultsmentioning
confidence: 99%
“…The durability study was conducted with an accelerated aging test by treating samples under a saturated humidity condition at 200 °C as presented in the previous research, which is much harsher than the usually‐adopted D85 (85 °C and 85% RH) test. The optical performance of the PiG films under the high‐power laser excitation was measured in a transmissive configuration by using a sphere‐spectroradiometer system . The system consists of a high‐power blue laser source (LSR445CP‐FC‐48W, Lasever, Ningbo, China), an integrating sphere (30 cm in diameter, Labsphere Inc., USA), and a CCD spectrometer (HR4000, Ocean Optics, USA).…”
Section: Methodsmentioning
confidence: 99%
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