1. The growth and luminescence mechanism of novel near-infrared Cs4Eu(Br,I)6:Sm crystal.
- Author
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Huang, Xinshuai, Wei, Qinhua, Yang, Jienan, Tang, Gao, Cai, Peiqing, Lei, Lei, Chen, Zhenhua, Liu, Zugang, Qin, Laishun, and Shi, Hongsheng
- Subjects
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SAMARIUM , *LUMINESCENCE , *SINGLE crystals , *CRYSTALS , *ENERGY transfer , *SCINTILLATORS - Abstract
A novel NIR emitting scintillator with 825 nm was developed by doping Sm2+ in Cs 4 Eu(Br,I) 6 crystal. The single crystals of Cs 4 Eu(Br,I) 6 :Sm were successfully grown by the Bridgman method. The crystal structure and valence state was approved by XRD and XPS methods. The luminescence properties and energy transfer were systematically investigated. The energy transfer mechanism is variable for different Sm2+ concentration. The PL decay profiles show that the Sm2+-related emission has fast decay of nanosecond. The proportion of fast decay can be tunable by adjusting Sm2+ doped concentration. The Sm2+ doped europium -host material will have a potential application for unclear detection as near-infrared (NIR) scintillators. • The novel NIR emitting Cs 4 Eu(Br,I) 6 :Sm scintillation crystals were successfully grown by the Bridgman method and the luminescence properties is tunable. • The proportion of nonradiative energy transfer from Eu2+ to Sm2+ was improved and the PLQY of Sm2+-related is up to 42.1%. • The fast decay time component of Sm2+ (50 ns) is up to 31.8% for Cs 4 Eu(Br,I) 6 : 3 mol%Sm crystal. • The proposed Sm2+ doped europium -host material principle is an effective method to develop near-infrared (NIR) scintillators for nuclear radiation detection. [ABSTRACT FROM AUTHOR]
- Published
- 2022
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