preparation and characterization of new nanoparticles compounds based on iron and iodine as prospective materials for medical applications
Aydia, M., Abdel Rahman, R., Rashad, A., Azony, K. (2021). preparation and characterization of new nanoparticles compounds based on iron and iodine as prospective materials for medical applications. EKB Journal Management System, 54(4), 39-53. doi: 10.21608/ajnsa.2021.40220.1395
Mohamed Aydia; Rehab Osman Abdel Rahman; Ahmed Mohamed Rashad; Khaled Azony. "preparation and characterization of new nanoparticles compounds based on iron and iodine as prospective materials for medical applications". EKB Journal Management System, 54, 4, 2021, 39-53. doi: 10.21608/ajnsa.2021.40220.1395
Aydia, M., Abdel Rahman, R., Rashad, A., Azony, K. (2021). 'preparation and characterization of new nanoparticles compounds based on iron and iodine as prospective materials for medical applications', EKB Journal Management System, 54(4), pp. 39-53. doi: 10.21608/ajnsa.2021.40220.1395
Aydia, M., Abdel Rahman, R., Rashad, A., Azony, K. preparation and characterization of new nanoparticles compounds based on iron and iodine as prospective materials for medical applications. EKB Journal Management System, 2021; 54(4): 39-53. doi: 10.21608/ajnsa.2021.40220.1395

preparation and characterization of new nanoparticles compounds based on iron and iodine as prospective materials for medical applications

Arab Journal of Nuclear Sciences and Applications
Article 5, Volume 54, Issue 4, October 2021, Page 39-53  XML PDF (785.89 K)
Document Type: Original Article
DOI: 10.21608/ajnsa.2021.40220.1395
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Authors
Mohamed Aydia email orcid 1; Rehab Osman Abdel Rahman2; Ahmed Mohamed Rashadorcid 3; Khaled Azony4
1Radioisotope and Generator department production-EAEA
2hot lab center-EAEA
3Central laboratory for Elemental and Isotopic Analysis, Nuclear Research Center, Atomic Energy Authority, p.O.Box, 13759, About Zabal, Egypt.
4Radioisotope and generator department hot labs center-EAEA
Abstract
Developed compounds of magnetic iron iodide nanoparticles (MIINPs) were simply and cheaply prepared for their potential use in the bioapplications through magnetic hyperthermia therapy, using a co-precipitation method based on the study of various factors such as temperature, molar ratio and pH. Two samples of MIINPs were chosen based on the proportions of iron and iodide in the sample, respectively 45 and 55% in MIINPs-1 and 52 and 48% in MIINPs-2. Fourier transforms infrared spectroscopy (FTIR), thermal analysis (TA), energy dispersive X-ray spectroscopy (EDX), and X-ray diffraction (XRD) were used to characterize the prepared compounds. The chemical composition of MIINPs-1 and MIINPs-2 was determined by means of an elemental analysis using EDX technique and confirmed using structural modeling by Visual Minteq 3.0, Match 1.9 and Endeavour 1.7 software. The magnetic properties of both samples were measured and found to be superparamagnetic materials. Both MIINPs-1 and MIINPs-2 samples have approximately the same magnetization (nearly 36.1 emu/g) in the 500 Oe coercive field as safe operating limits for MHT achieving 94% and 86.4% of their saturation values respectively. Specific absorption rates (SARs) were practically and theoretically determined as well as it was found that the practical SAR value of MIINPs-1 is much closer to the theoretical value than in the case of MIINPs-2.
Keywords
Magnetic nanoparticles; hyperthermia; Specific absorption rate (SAR); Magnetization; Cytotoxicity
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