Litcius/Paper detail

Highly luminescent zero-dimensional lead-free manganese halides for β-ray scintillation

Linyuan Lian, Wei Qi, Huaiyi Ding, Hao Tian, Qi Ye, Yong‐Biao Zhao, Long Zhao, Jianbo Gao, Daoli Zhang, Jianbing Zhang

2022Nano Research41 citationsDOI

Abstract

Because of their moderate penetration power, β-rays (high-energy electrons) are a useful signal for evaluating the surface contamination of nuclear radiation. However, the development of β-ray scintillators, which convert the absorbed high-energy electrons into visible photons, is hindered by the limitations of materials selection. Herein, we report two highly luminescent zero-dimensional (0D) organic—inorganic lead-free metal halide hybrids, (C13H30N)2MnBr4 and (C19H34N)2MnBr4, as scintillators exhibiting efficient β-ray scintillation. These hybrid scintillators combine the superior properties of organic and inorganic components. For example, organic components that contain light elements C, H, and N enhance the capturing efficiency of β particles; isolated inorganic [MnBr4]2− tetrahedrons serve as highly localized emitting centers to emit intense radioluminescence (RL) under β-ray excitation. Both hybrids show a narrow-band green emission peaked at 518 nm with photoluminescence quantum efficiencies (PLQEs) of 81.3% for (C13H30N)2MnBr4 and 86.4% for (C19H34N)2MnBr4, respectively. To enable the solution processing of this promising metal halide hybrid, we successfully synthesized (C13H30N)2MnBr4 colloidal nanocrystals for the first time. Being excited by β-rays, (C13H30N)2MnBr4 scintillators show a linear response to β-ray dose rate over a broad range from 400 to 2,800 Gy·s−1, and also display robust radiation resistance that 80% of the initial RL intensity can be maintained after an ultrahigh accumulated radiation dose of 240 kGy. This work will open up a new route for the development of β-ray scintillators.

Topics & Concepts

RadioluminescenceScintillatorScintillationMaterials scienceLuminescencePhotoluminescenceRadiationOptoelectronicsGamma rayExcited stateHalideRadiation resistanceOpticsPhysicsChemistryAtomic physicsInorganic chemistryAstrophysicsDetectorPerovskite Materials and ApplicationsLuminescence Properties of Advanced MaterialsRadiation Detection and Scintillator Technologies