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Six‐ and five‐coordinated Cr <sup>3+</sup> in Ga <sub>2</sub> GeO <sub>5</sub> invokes tunable broadband near‐infrared emission toward night‐vision applications

Chao-Yue Peng, Bo Wang, Li‐Fang Yuan, Kaige Hu, Geng Chen, Haoyi Wu, Yihua Hu, Yahong Jin

2023Rare Metals60 citationsDOI

Abstract

Abstract Broadband near‐infrared (NIR) light sources play a critical role in widespread applications such as advanced spectroscopy analysis and nondestructive testing. One of the most promising techniques is the fabrication of broadband NIR phosphor‐converted light emitting diode (pc‐LED). However, the purposeful design of a tunable ultra‐broadband NIR‐emitting phosphor in a single host is still a challenge. In this work, Ga 2 GeO 5 with two sites of six‐coordinated [Ga1O 6 ] and five‐coordinated [Ga2O 5 ] is chosen to host Cr 3+ , successfully producing tunable broadband NIR luminescence (680–1350 nm). It can be tuned largely from 828 to 970 nm with the full‐width at half maximum (FWHM) varied from 208 to 258 nm just by simply adjusting the Cr 3+ ‐doping content. The tailoring of the Cr 3+ NIR spectral emission is ascertained to the site occupation preference and competition. The encapsulation of a prototype of NIR pc‐LED with an output power of 29.5 mW@390 mA is conducted for the implementation of night‐vision application. This work provides a novel broadband NIR phosphor by Cr 3+ ‐doping in both the six‐ and five‐coordination field, meanwhile, further demonstrating the feasibility of discovering new host material with more than one crystallographic site for Cr 3+ to trigger tunable broadband NIR emission.

Topics & Concepts

BroadbandPhosphorMaterials scienceNear-infrared spectroscopyFull width at half maximumOptoelectronicsLuminescenceDopingInfraredSpectroscopyOpticsPhysicsQuantum mechanicsLuminescence Properties of Advanced MaterialsAdvanced Photocatalysis TechniquesGa2O3 and related materials
Six‐ and five‐coordinated Cr <sup>3+</sup> in Ga <sub>2</sub> GeO <sub>5</sub> invokes tunable broadband near‐infrared emission toward night‐vision applications | Litcius