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Efficient near‐infrared emission in lanthanum ion doped double perovskite <scp>Cs<sub>2</sub>NaScCl<sub>6</sub></scp> via Cr<sup>3+</sup> sensitization under visible light excitation

Weiguo Huang, Hui Peng, Jinling Huang, Ye Yang, Qilin Wei, Bao Ke, Muhammad Sheraz Khan, Jialong Zhao, Bingsuo Zou

2024EcoMat35 citationsDOIOpen Access PDF

Abstract

Abstract Herein, we synthesized Cr 3+ /Ln 3+ (Er 3+ , Tm 3+ )‐codoped rare earth‐based Cs 2 NaScCl 6 double perovskite, and the near‐infrared emission of Ln 3+ can be excited by visible light through the energy transfer (ET) from Cr 3+ to Ln 3+ . Moreover, there are two independent emission bands, which stems from 4 T 2 → 4 A 2 transition of Cr 3+ (970 nm) and f‐f transition of Ln 3+ (1542 nm for Er 3+ and 1220 nm for Tm 3+ ), respectively. Particularly, both compounds have ultra‐high photoluminescence quantum yield (PLQY) of 60% for 10%Cr 3+ /6%Er 3+ ‐codoped Cs 2 NaScCl 6 (Er 3+ emission: ∼26%) and 68% for 10%Cr 3+ /4.5%Tm 3+ ‐codoped Cs 2 NaScCl 6 (Tm 3+ emission: ∼56%), which can be attributed to the ultra‐high ET efficiency from Cr 3+ to Ln 3+ and the similar ionic activity of Sc 3+ and Ln 3+ allowing more dopants enter the host lattice. Considering the excellent stability of the samples, we demonstrated Cr 3+ /Tm 3+ ‐codoped Cs 2 NaScCl 6 in the applications of near‐infrared imaging and night vision. Finally, we reported 10%Cr 3+ /4.5%Tm 3+ /9%Er 3+ ‐tridoped Cs 2 NaScCl 6 and further applied it for optical thermometry. image

Topics & Concepts

PhotoluminescenceAnalytical Chemistry (journal)DopantMaterials scienceQuantum yieldExcited stateIonic radiusInfraredDopingLanthanumIonVisible spectrumChemistryFluorescenceInorganic chemistryOptoelectronicsOpticsPhysicsAtomic physicsOrganic chemistryChromatographyPerovskite Materials and ApplicationsLuminescence Properties of Advanced MaterialsSolid-state spectroscopy and crystallography