X-ray/gamma radiation shielding properties of zinc ferrite nanoparticles synthesised via solution combustion method-Reference-Cited by-同舟云学术

X-ray/gamma radiation shielding properties of zinc ferrite nanoparticles synthesised via solution combustion method

Published:2023-12 Issue:20 Volume:199 Page:2506-2512
ISSN:0144-8420
Container-title:Radiation Protection Dosimetry
language:en
Short-container-title:

Author:

Reddy Byra R C¹²,Manjunatha Holaly C S³^ORCID,Vidya Yalekadakalu S⁴^ORCID,Sridhar K N⁵,Seenappa Lakshmaiah³,Manjunatha Shivanna⁶,Sathish Kembthanahalli V³,Munirathnam Rajachari³,Nagaiah Ningaiah⁷

Affiliation:

1. Presidency University Department of Physics, , Bengaluru 560064, Karnataka, India

2. Government First Grade College Department of Physics, , Srinivasapur 563135, Karnataka, India

3. Government College for Women Department of Physics, , Kolar 563101, Karnataka, India

4. Lal Bahadur Shastri Government First Grade College Department of Physics, , RT Nagar, Bangalore 560032, Karnataka, India

5. Government First Grade College Department of Physics, , Kolar 563101, Karnataka, India

6. B.M.S. College of Engineering Department of Chemistry, , Bengaluru 560019, Karnataka, India

7. Bangalore University Department of Physics, , Bengaluru 560056, Karnataka, India

Abstract

Abstract Zinc ferrite (ZnFe2O4) nanoparticles were synthesised via solution combustion method using urea as a fuel. The synthesised samples were characterised with various techniques. The cubic structure with Fd-3 m space group is confirmed by Powder X-ray Diffraction and Bragg’s reflection. The crystallite size estimated from Scherrer’s method was found to be 40 nm. The agglomerated irregular shape and sized surface morphology was confirmed by Scanning Electron Microscopy image. The direct energy band gap determined from Wood and Tauc’s relation was found to be 5.25 eV. Using a NaI (Tl) detector and multi-channel analyser, the described sample was examined for X-ray and gamma ray shielding characteristics in the energy range of 0.081–1.332 MeV. The measured shielding values are in good agreement with the theory, however below 356 keV, there is a little variation of up to 10%. The current work offers up new possibilities for using this simple, affordable, effective and low temperature approach to create nanomaterials for X-ray and gamma ray shielding.

Publisher

Oxford University Press (OUP)

Subject

Public Health, Environmental and Occupational Health,Radiology, Nuclear Medicine and imaging,General Medicine,Radiation,Radiological and Ultrasound Technology

Link

https://academic.oup.com/rpd/article-pdf/199/20/2506/54719496/ncad224.pdf

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