Li2MnCl4 single crystal: a new candidate for a red-emitting neutron scintillator†

IF 5.2 Q2 MATERIALS SCIENCE, MULTIDISCIPLINARY Materials Advances Pub Date : 2024-09-18 DOI:10.1039/D4MA00697F

Vojtěch Vaněček, Robert Král, Křehlíková Kateřina, Romana Kučerková, Vladimir Babin, Petra Zemenová, Jan Rohlíček, Zuzana Málková, Terézia Jurkovičová and Martin Nikl

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Abstract

A novel red-emitting scintillator Li₂MnCl₄ is proposed as a candidate for thermal neutron detection. It features high Li content, low density, a low effective atomic number, and emission in the red-NIR region. These characteristics make it an interesting candidate for long-distance neutron detection in harsh environments e.g. decommissioning of nuclear power plants. The absorption is thoroughly investigated in the scope of the Tanabe–Sugano diagram. The luminescence mechanism in undoped Li₂MnCl₄ is studied in depth using steady-state and time-resolved photoluminescence. Doping with Eu²⁺ and Ce³⁺ is introduced as a trial to improve the scintillation efficiency. We show that in the Eu²⁺ and Ce³⁺ doped Li₂MnCl₄ the luminescence mechanism involves energy transfer from the dopants to Mn²⁺, and propose the local lattice distortion around the dopant and possible charge compensation mechanisms.

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Li2MnCl4 单晶：红光发射中子闪烁体的新候选材料†。

本文提出了一种新型红色发射闪烁体 Li2MnCl4，作为热中子探测的候选材料。它具有锂含量高、密度低、有效原子序数低以及在红-近红外区域发射等特点。这些特点使其成为在恶劣环境（如核电站退役）中进行长距离中子探测的理想候选物质。在塔纳贝-苏加诺图的范围内对其吸收进行了深入研究。利用稳态和时间分辨光致发光深入研究了未掺杂 Li2MnCl4 中的发光机制。作为提高闪烁效率的试验，引入了 Eu2+ 和 Ce3+ 掺杂。我们发现在掺杂 Eu2+ 和 Ce3+ 的 Li2MnCl4 中，发光机制涉及从掺杂剂到 Mn2+ 的能量转移，并提出了掺杂剂周围的局部晶格畸变和可能的电荷补偿机制。

本文章由计算机程序翻译，如有差异，请以英文原文为准。

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