November 25, 2024

Li Yangato

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Degree: Ph.D in -
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Research

Title Improving thermoluminescence properties of Li 2 B 4 O 7 : Cu nanoparticles by co-doping Mn impurities for gamma dosimetry application
Type Article
Keywords
Nanoparticles, Lithium tetraborate, Thermoluminescence, UV-visible, Personal dosimeter, Gamma-ray.
Journal European Physical Journal Plus
DOI 10.1140/epjp/s13360-023-04236-2
Researchers Mohsen Mehrabi (First researcher) , Mostafa Zahedifar (Second researcher) , Soheila Hassanloo (Third researcher) , kosar kohzadi (Fourth researcher) , Hossein Nikmanesh (Fifth researcher) , Li Yangato (Not in first six researchers)

Abstract

Doped Lithium tetraborate nano powders with copper (sample 1) and co-doped with copper-manganese (sample 2) impurities were synthesized via the combustion process and were used to investigate the optical properties. Scanning electron microscopic images plus X-ray diffraction patterns confirm the morphology, size and crystal structure of the produced nanoparticles. Using the Williamson-Hall plot, the average crystallite size was estimated at ~51 nm. From the absorption spectrum, the direct optical bandgaps obtained 3.68 eV and 3.72 eV for the samples 1 and 2, respectively. Besides, the thermoluminescence properties of nanoparticles irradiated with different doses of gamma-rays were investigated at room temperature. The results show that, adding manganese impurities to sample 1 significantly affects its thermoluminescence properties and improves them, so sample 2 is four times more sensitive than sample 1 relative to the gamma-ray. The dose-response of sample 2 is linear in a broader range of gamma-ray doses than that of sample 1 and its fading in one month is about half of the sample1.