Awakening the Dumb Site to Realize Ultra-Broadband NIR Phosphor

Near-infrared (NIR) light sources have gained immense popularity in recent years due to their wide range of applications in various fields, including spectroscopy and biomedical imaging. However, the limited emission bandwidth of NIR phosphors is a significant bottleneck in their development. Here, a novel strategy is reported to broaden the emission bandwidth of NIR phosphors by awakening the dumb site. Na₄M₃Ta(PO₄)₆: Cr³⁺ (M = Al³⁺, Ga³⁺, In³⁺) phosphor is synthesized, which exhibits a greatly broadened bandwidth from 134 to 232 nm. Structural and spectral analysis reveals that the NaO₆ octahedral site has a severe t_2g-type distortion, making it a dumb site for Cr³⁺. By introducing larger In³⁺ at the M site, the angular distortion at the NaO₆ site decreases to the normal range, enabling the luminescence of Cr³⁺ again. Along with the broadened bandwidth, the emission peak also redshifts from 802 to 977 nm, giving advantages in NIR spectroscopy applications. Interestingly, the awakened luminescence at the NaO₆ site shows even better luminescence properties than the original M/TaO₆ octahedral site. These findings reveal a novel insight into the luminescence of Cr³⁺ at the octahedral site, which could potentially revolutionize the design of NIR phosphors.