Bridgman method grown $Cs_2Li_3I_5$: an inter-alkali metal scintillator with high lithium content

Katerina Krehlikova; Vojtech Vanecek; Robert Kral; Romana Kucerkova; Petra Zemenova; Jan Rohl{\i}cek; Petr Prusa; Katerina Rubesova

arXiv:2602.06729·cond-mat.mtrl-sci·February 9, 2026

Bridgman method grown $Cs_2Li_3I_5$: an inter-alkali metal scintillator with high lithium content

Katerina Krehlikova, Vojtech Vanecek, Robert Kral, Romana Kucerkova, Petra Zemenova, Jan Rohl{\i}cek, Petr Prusa, Katerina Rubesova

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TL;DR

This study reports the growth and characterization of Cs2Li3I5 crystals doped with Tl and In using the Bridgman method, revealing their luminescent properties, melting behavior, and potential as scintillators.

Contribution

First demonstration of Bridgman-grown Cs2Li3I5 crystals doped with Tl and In, with detailed analysis of their luminescence and melting properties.

Findings

01

Doped crystals show increased luminescence efficiency.

02

Emission spectra similar to doped caesium iodide counterparts.

03

CLI has a congruent melting point around 220°C.

Abstract

In this study, we report on the growth of ternary caesium lithium iodide ( $C s_{2} L i_{3} I_{5}$ , CLI) bulk crystals, both undoped and doped with thallium (Tl) and indium (In), using the miniaturised vertical Bridgman method (mVB). X-ray Powder Diffraction (XRPD) confirmed the presence of the ternary CLI phase in all three crystals, with CLI : In appearing homogeneous structure-wise throughout the entire ingot. Measurements of radioluminescence (RL), photoluminescence emission (PL), photoluminescence excitation (PLE) spectra, and photoluminescence decay kinetics (PL decay) demonstrated that the primary luminescence centers originate from the matrix itself. When doped with thallium, the efficiency of the luminescence was significantly increased. Furthermore, CLI : Tl and CLI : In crystals exhibited emission spectra similar to those of their doped caesium iodide counterparts, CsI : Tl and CsI :…

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Taxonomy

TopicsRadiation Detection and Scintillator Technologies · Inorganic Chemistry and Materials · Luminescence Properties of Advanced Materials