Journal
ACS APPLIED MATERIALS & INTERFACES
Volume 13, Issue 30, Pages 36011-36019Publisher
AMER CHEMICAL SOC
DOI: 10.1021/acsami.1c10490
Keywords
phosphor; broadband emission; Cr3+; short-wave infrared; LEDs
Funding
- National Natural Science Foundation of China [51902184]
- Shandong Provincial Natural Science Foundation [ZR2019BEM028]
- Shandong University [31370088963167]
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Short-wave infrared (SWIR) spectroscopy technology is widely used in various fields, but developing robust SWIR light sources remains a challenge. SWIR LEDs created using phosphor conversion technology offer advantages of compactness, low cost, and long lifetime, making them ideal for applications such as night-vision surveillance and SWIR spectroscopy.
Short-wave infrared (SWIR) spectroscopy has recently emerged as an important technology across a wide range of areas, whether industrial, biomedical, or environmental. Nevertheless, it is still a long-standing challenge to develop robust SWIR light sources. The SWIR phosphor-convert light emitting diodes (LEDs) by coating blue LED chips with desirable SWIR-emitting phosphors are becoming an ideal alternative for solid-state SWIR light sources due to its compactness, low-cost, and long operating lifetime, as does the commercial white LEDs. Herein, we report a blue-pumped Cr3+-doped LiScGeO4 SWIR phosphor as a luminescent converter for phosphor-convert SWIR LEDs. This phosphor shows an intense SWIR emission band with a peak wavelength at similar to 1120 nm owing to the T-4(2) -> (4)A(2) electron transition of Cr3+ when exciting with blue light. The full width at half-maximum (fwhm) of the phosphor is similar to 300 nm and the absolute quantum efficiency is determined to be similar to 26%. SWIR LED prototypes are constructed by combining the optimized phosphor materials with commercial blue InGaN LED chips, which can generate a commendable emission band in the SWIR region over 800-1600 nm and achieve a maximum output power of similar to 4.78 mW at 60 mA with the photoconversion efficiency of 4.4%. The current exploration of Cr3+-doped SWIR-emitting phosphors will lay the foundation to engineer phosphor-convert SWIR LEDs for applications in night-vision surveillance and SWIR spectroscopy technology. These blue-light-excitable SWIR-emitting phosphors can serve as an important complement to the spectral gap of the current Cr3+-doped phosphors in the SWIR region and will pave the way toward cost-effective phosphor-converted solid-state SWIR light sources.
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