面向辐射探测应用的零维金属卤化物闪烁体研究进展OA
Research Progress on Zero-dimensional Metal Halide Scintillators towards Radiation Detection Applications
闪烁体是辐射探测领域的关键材料,在高能物理、医疗诊断、天文学、放射性勘测及国土安全领域有重要应用,但迄今为止鲜有兼具高光产额与能量分辨率、优异环境稳定性与低成本的闪烁体材料,迫切需要开发一种综合性能优异、成本合适的闪烁体.零维(0D)金属卤化物具有高光产额、弱自吸收效应、强环境适应性、良好的辐照稳定性等优势,是下一代闪烁体的优选材料.本文概述了 0D金属卤化物闪烁体及其在辐射探测领域的研究进展,从分子结构出发概述了 0D金属卤化物的特点与闪烁发光原理,特别是其独特的自陷激子发光特性;系统总结了具有优异辐射探测性能的Pb基、Cu基、Mn基、Sn基等典型 0D金属卤化物材料,并对它们进行了细致比较;探讨了该类材料在辐射成像、能谱探测、中子探测等领域的应用.最后,结合研究现状,展望了 0D金属卤化物材料在辐射探测领域面临的挑战与机遇.未来,研究者们应致力于解决大尺寸低缺陷高透明闪烁单晶生长、更深入的闪烁机理研究以及针对多种形态的闪烁体性能测量标准构建等关键问题.
Scintillators are key materials for radiation detection field.They have wide applications in many fields such as high-energy physics,medical diagnostics,astronomy,radioactivity exploration,and homeland security.However,most of the reported scintillators(e.g.NaI:Tl and LaBr3:Ce)can hardly provide a perfect combination of high light yield and energy resolution,excellent ambient stability and low cost.It is urgent to discover novel scintillators with outstanding comprehensive performance and ideal cost.Zero-dimensional(0D)metal halides,possessing abundant advantages such as high light yield,weak self-absorption,strong ambient adaptability,and considerable stability under irradiation,are good candidates for the next-generation scintillators.This review consolidates the recent research progress on 0D metal halide scintillators towards applications in radiation detection.Firstly,the basic properties as well as the scintillation mechanism of 0D metal halides are analyzed at molecular scale,especially their unique self-trapped exciton emission characteristic.Then,some typical 0D metal halides which show excellent radiation detection properties are systematically introduced,containing Pb-,Cu-,Mn-,and Sn-based structures,and their key scintillation parameters are comprehensively compared.Furthermore,their applications in X-ray imaging,gamma-ray spectrum measurement,and neutron detection are well discussed.Last,the challenges and opportunities in development of 0D metal halide scintillators towards radiation detection are prospected.In the future,researchers should be committed to providing solutions to the issues such as growth of large-scale,defect-less and highly transparent single crystals,deep and reasonable explanation of scintillation mechanism,and creation of standard for the methods of performance measurement towards various kinds of scintillators.
孙炼;张磊磊;薛泽旭;吴坤;陈晔;李志远;王鲁凯;王尊刚
核生化灾害防护化学全国重点实验室,北京 102205核生化灾害防护化学全国重点实验室,北京 102205核生化灾害防护化学全国重点实验室,北京 102205核生化灾害防护化学全国重点实验室,北京 102205核生化灾害防护化学全国重点实验室,北京 102205核生化灾害防护化学全国重点实验室,北京 102205核生化灾害防护化学全国重点实验室,北京 102205核生化灾害防护化学全国重点实验室,北京 102205
数理科学
辐射探测闪烁体零维金属卤化物闪烁发光机理综述
radiation detectionscintillatorzero-dimensional metal halidescintillation mechanismreview
《无机材料学报》 2026 (2)
159-176,18
国家自然科学基金(12405358)National Natural Science Foundation of China(12405358)
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