Investigation on Physico Chemical and X-ray Shielding Performance of Zinc Doped Nano-WO 3 Epoxy Composite for Light Weight Lead Free Aprons

Investigation on Physico Chemical and X-ray Shielding Performance of Zinc Doped Nano-WO 3 Epoxy Composite for Light Weight Lead Free Aprons

This report addresses a way to reduce the usage of highly toxic lead in diagnostic X-ray shielding by developing a cost-effective, eco-friendly nano-tungsten trioxide (WO ) epoxy composite for low-weight aprons. Zinc (Zn)-doped WO nanoparticles of 20 to 400 nm were synthesized by an inexpensive and...

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Bibliographic Details
Published in:Materials Vol. 16; no. 10
Main Authors: Palanisami, Sanjeevi, Dhandapani, Vishnu Shankar, Jayachandran, Varuna, Muniappan, Elango, Park, Dongkyou, Kim, Byungki, Govindasami, Kalpana
Format: Journal Article
Language:English
Published: Switzerland 20-05-2023
Subjects:
Zn/WO3 nanoparticles
physical characterization
X-ray attenuation analysis
epoxy-nano composite
lead free aprons
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Summary:This report addresses a way to reduce the usage of highly toxic lead in diagnostic X-ray shielding by developing a cost-effective, eco-friendly nano-tungsten trioxide (WO ) epoxy composite for low-weight aprons. Zinc (Zn)-doped WO nanoparticles of 20 to 400 nm were synthesized by an inexpensive and scalable chemical acid-precipitation method. The prepared nanoparticles were subjected to X-ray diffraction, Raman spectroscopy, UV-visible spectroscopy, photoluminescence, high-resolution-transmission electron microscope, scanning electron microscope, and the results showed that doping plays a critical role in influencing the physico-chemical properties. The prepared nanoparticles were used as shielding material in this study, which were dispersed in a non-water soluble durable epoxy resin polymer matrix and the dispersed materials were coated over a rexine cloth using the drop-casting method. The X-ray shielding performance was evaluated by estimating the linear attenuation coefficient (μ), mass attenuation coefficient (μ ), half value layer (HVL), and X-ray percentage of attenuation. Overall, an improvement in X-ray attenuation in the range of 40-100 kVp was observed for the undoped WO nanoparticles and Zn-doped WO nanoparticles, which was nearly equal to lead oxide-based aprons (reference material). At 40 kVp, the percentage of attenuation of 2% Zn doped WO was 97% which was better than that of other prepared aprons. This study proves that 2% Zn doped WO epoxy composite yields a better particle size distribution, μ , and lower HVL value and hence it can be a convenient lead free X-ray shielding apron.
ISSN:1996-1944
1996-1944