Ultrahigh Quantum Efficiency Near-Infrared-II Emission Achieved by Cr³⁺ Clusters to Ni²⁺ Energy Transfer

Authors

Chih Yu Chang, National Taiwan University
Ming Hsuan Huang, National Taiwan University
Kuan Chun Chen, National Taiwan University
Wen Tse Huang, National Taiwan University
Mikołaj Kamiński, Uniwersytet Gdański
Natalia Majewska, Uniwersytet Gdański
Tomasz Klimczuk, Gdańsk University of Technology
Jia Hao Chen, Ltd.
Ding Hua Cherng, Ltd.
Kuang Mao Lu, Ltd.
Wei Kong Pang, University of Wollongong
Vanessa K. Peterson, University of Wollongong
Sebastian Mahlik, Uniwersytet Gdański
Grzegorz Leniec, West Pomeranian University of Technology, Szczecin
Ru Shi Liu, National Taiwan University

Publication Name

Chemistry of Materials

Abstract

Increasing demand for near-infrared-II (NIR-II) light sources requires improved NIR-II phosphors. We present a series of phosphors codoped with Cr3+ and Ni2+ that possess NIR-II emission with an unprecedented internal quantum efficiency (IQE) of 97.4%. Our study reveals an energy transfer mechanism involving clusters of Cr3+ where luminescent centers are closely matched in energy and where the Ni2+ emission intensity can be tuned through sintering temperature. The profound electron paramagnetic resonance (EPR) studies disclose the interaction between Cr3+ clusters and Cr3+-Ni2+ pairs, further proving the cause of such a high IQE and the significance of Cr3+ clusters. This work provides promising pathways for the development of NIR-II light-emitting diodes with outstanding efficiency by suggesting a new energy transfer source of Cr3+

Open Access Status

This publication may be available as open access

Funding Number

NSTC 112-2113-M-002-020

Funding Sponsor

Ministry of Science and Technology, Taiwan