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人工晶体学报 ›› 2024, Vol. 53 ›› Issue (4): 627-633.

• 研究论文 • 上一篇    下一篇

Cs4EuI6∶Sm近红外闪烁晶体的生长及发光性能研究

杨江浩, 黄欣帅, 蓝陈慧, 魏钦华, 秦来顺   

  1. 中国计量大学材料与化学学院,杭州 310018
  • 收稿日期:2023-11-06 出版日期:2024-04-15 发布日期:2024-04-19
  • 通信作者: 魏钦华,副教授。E-mail:weiqinhua@cjlu.edu.cn
  • 作者简介:杨江浩(2002—),男,浙江省人。E-mail:1208983123@qq.com
  • 基金资助:
    国家自然科学基金(12275262);浙江省大学生科技创新活动计划(2022R409A015);浙江省自然科学基金公益项目(LGG22E020001)

Growth and Luminescence Properties of Cs4EuI6∶Sm Near-Infrared Scintillation Crystals

YANG Jianghao, HUANG Xinshuai, LAN Chenhui, WEI Qinhua, QIN Laishun   

  1. College of Materials and Chemistry, China Jiliang University, Hangzhou 310018, China
  • Received:2023-11-06 Online:2024-04-15 Published:2024-04-19

摘要: 随着长波敏感硅基光电探测器的发展,近红外闪烁晶体逐渐成为研究热点,其中Sm2+掺杂的Eu2+基卤化物晶体表现出优异的近红外发光性能。本文利用布里奇曼法成功制备了尺寸达到厘米级别的Cs4EuI6∶Sm近红外闪烁晶体,通过XRD、XPS和ICP-OES等手段研究了晶体的组分和结构。结果表明,Sm2+成功掺入Cs4EuI6基质,且对基质的晶体结构无明显影响。在紫外和X射线的激发下,晶体主要呈现两个发光中心(Eu2+和Sm2+),发光峰位于450和840 nm左右,分别对应于Eu2+和Sm2+的5d→4f的跃迁发光,紫外激发下的Eu2+和Sm2+的荧光衰减寿命均处于微秒级别。结果表明,随着Sm2+掺杂浓度的增加,发光波长由蓝光逐渐变为近红外光。同时系统研究了不同Sm2+浓度掺杂对晶体发光性能、Eu2+-Sm2+能量传递及荧光寿命的影响,实验结果表明,改变Sm2+掺杂浓度可以调控晶体的发光性能。

关键词: Cs4EuI6, Sm2+掺杂, 闪烁晶体, 近红外发光, 布里奇曼法, 能量传递

Abstract: With the rapid development of silicon-based light detectors with high detection efficiency and long-wavelength sensitivity, the development of near-infrared scintillation crystals has become a hotspot. Especially, the Sm2+ doped europium-based halide crystals exhibit excellent near-infrared luminescence properties. In this paper, Cs4EuI6∶Sm near-infrared scintillation crystals with a size of cm-level were successfully prepared by Bridgman method. The composition and structure were discussed by XRD, XPS and ICP-OES methods, indicating that the Sm2+ was introduced and has no obvious effect on the crystal structure of the matrix. Under ultraviolet and X-ray excitation, the crystal has two luminescence centers (Eu2+ and Sm2+), and the emission peaks are located at 450 and 840 nm, respectively, corresponding to the 5d→4f luminescence of Eu2+ and Sm2+. The decay time of Eu2+ and Sm2+ is at the level of microsecond under ultraviolet excitation. The results show that the emission wavelength gradually varies from blue to near infrared as Sm2+ doping concentration increased. The effects of Sm2+ concentration on the luminescence properties, Eu2+-Sm2+ energy transfer and decay time of the crystals were also studied, which means that the luminescence properties can be tuned by adjusting the Sm2+ doping concenstration.

Key words: Cs4EuI6, Sm2+ doping, scintillation crystal, near infrared luminescence, Bridgman method, energy transfer

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