Tunable Broadband NIR-II Emission via Cr<sup>4+</sup>-Er<sup>3+</sup> Energy Transfer in CaMgGeO<sub>4</sub>:Cr<sup>4+</sup>,Er<sup>3+</sup> Phosphors for Nondestructive Analysis
Hanyu Hu, Zeyu Lyu, Dashuai Sun, Shuai Wei, Jia Liu, Xin Wang, Luhui Zhou, Hongpeng You
Abstract
Although there have been numerous reports on broadband near-infrared (NIR) emitting phosphors, their emissions are mainly concentrated in the range of 700–1000 nm (NIR-I). Herein, we successfully synthesized a broadband near-infrared phosphor CaMgGeO 4:Cr 4+ (CMG:Cr 4+ ) with an emission in the range of 1000–1600 nm (NIR-II). The introduction of Er 3+ ions into CMG:Cr 4+ resulted in a wider near-infrared emission phosphor CaMgGeO 4:Cr 4+,Er 3+ (fwhm = 361 nm), compensating for the luminescence of 1500–1600 nm. More importantly, an energy transfer from Cr 4+ to Er 3+ ions has been discovered. Furthermore, a NIR pc-LED was fabricated by combining the CMG:Cr 4+,Er 3+ phosphor with a 590 nm chip. The changes in intensity and profile of the transmission spectra of light passing through different liquids reveal its potential application in organic compound recognition. This work opens a direction for the development of NIR-II phosphors.