Flexible and lightweight radiation shielding sponges consisting of sulfated tungsten oxide and bismuth halide composites

IF 5.9 3区 工程技术 Q1 CHEMISTRY, MULTIDISCIPLINARY Journal of Industrial and Engineering Chemistry Pub Date : 2024-08-05 DOI:10.1016/j.jiec.2024.08.004
Shanmugam Mahalingam, Seok-Gyu Kang, Dae-Seong Kwon, Nazmul Hossain, Hyeon Kwang Kim, Arun Kumar Manoharan, Senthil Bakthavatchalam, Junghwan Kim
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Abstract

Lead’s high density (density of ∼ 11.34 g/cm) facilitates X-ray attenuation, but its mass and toxicity limit applicability. Therefore, it is essential to replace Pb with lighter and nontoxic shielding materials; however, alternative shielding usually exhibits inferior performance to Pb. In this study, we successfully developed efficient radiation shielding sponges with a light weight (density of ∼ 1 g/cm) and a coin shape (thickness of 3 mm and diameter of 25 mm) by combining polymeric Polydimethylsiloxane (PDMS), sulfated tungsten oxide (S-WO), and bismuth halides. The synthesized S-WO powder, PDMS/S-WO and PDMS/S-WO/BiI sponges are examined using numerous techniques, such as XRD, FE-SEM with EDX/mapping, HR-TEM with EDX/mapping, XPS, BET, TGA, FT-IR and mechanical properties analysis. The XRD patterns revealed no significant peak shifts, indicating that sulfation had no discernible impact on the crystal structure or phase composition of WO. SEM analysis of PDMS/S-WO, PDMS/S-WO/BiI sponge indicated an even distribution of S-WO and bismuth halide particles within the PDMS matrix. Our novel porous sponge matrices of PDMS and S-WO effectively adsorbed bismuth halide salts on their porous surfaces, forming intimate interfaces and uniform dispersions in the composites. The shielding sponge exhibits high X-ray attenuation. Coin-shaped PDMS/S-WO/BiI demonstrated 90.2 % X-ray shielding efficiency at 60 kV, a top value for non-heavy-metal shields. This study investigates the development and characterization of PDMS/S-WO/BiI composite materials aimed at enhancing X-ray shielding effectiveness. The composite leverages the high atomic number and density of S-WO and BiI to improve X-ray attenuation, while the flexibility and chemical stability of PDMS provide mechanical robustness and ease of fabrication. Through a series of experimental evaluations, we demonstrate that the PDMS/S-WO/BiI composite exhibits superior X-ray shielding capabilities compared to conventional materials. This work demonstrates significant progress in flexible, high-performance X-ray shielding. The approach provides a foundation for developing lightweight, radiation-protective materials using doped metal oxides and halide salts.
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由硫酸化氧化钨和卤化铋复合材料组成的柔性轻质辐射屏蔽海绵
铅的高密度(密度为 11.34 克/厘米)有利于 X 射线衰减,但其质量和毒性限制了其适用性。因此,必须用更轻、无毒的屏蔽材料来替代铅,但替代屏蔽材料的性能通常不如铅。在这项研究中,我们将聚合物聚二甲基硅氧烷(PDMS)、硫酸化氧化钨(S-WO)和卤化铋结合在一起,成功研制出重量轻(密度为 1 克/厘米)、形状为硬币(厚度为 3 毫米,直径为 25 毫米)的高效辐射屏蔽海绵。合成的 S-WO 粉末、PDMS/S-WO 和 PDMS/S-WO/BiI 海绵采用多种技术进行了检测,如 XRD、带 EDX/绘图的 FE-SEM、带 EDX/绘图的 HR-TEM、XPS、BET、TGA、FT-IR 和机械性能分析。XRD 图谱没有发现明显的峰值偏移,表明硫化对 WO 的晶体结构或相组成没有明显影响。对 PDMS/S-WO、PDMS/S-WO/BiI 海绵的 SEM 分析表明,S-WO 和卤化铋颗粒在 PDMS 基体中分布均匀。我们的新型 PDMS 和 S-WO 多孔海绵基质能有效地在其多孔表面吸附卤化铋盐,在复合材料中形成亲密的界面和均匀的分散。这种屏蔽海绵具有很高的 X 射线衰减性。硬币形 PDMS/S-WO/BiI 在 60 千伏电压下的 X 射线屏蔽效率为 90.2%,是非重金属屏蔽的最高值。本研究调查了 PDMS/S-WO/BiI 复合材料的开发和特性,旨在提高 X 射线屏蔽效果。这种复合材料利用 S-WO 和 BiI 的高原子序数和密度来改善 X 射线衰减,而 PDMS 的柔韧性和化学稳定性则提供了机械坚固性和易于制造性。通过一系列实验评估,我们证明了 PDMS/S-WO/BiI 复合材料与传统材料相比具有更出色的 X 射线屏蔽能力。这项工作表明,在柔性、高性能 X 射线屏蔽方面取得了重大进展。该方法为开发使用掺杂金属氧化物和卤化物盐的轻质辐射防护材料奠定了基础。
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来源期刊
CiteScore
10.40
自引率
6.60%
发文量
639
审稿时长
29 days
期刊介绍: Journal of Industrial and Engineering Chemistry is published monthly in English by the Korean Society of Industrial and Engineering Chemistry. JIEC brings together multidisciplinary interests in one journal and is to disseminate information on all aspects of research and development in industrial and engineering chemistry. Contributions in the form of research articles, short communications, notes and reviews are considered for publication. The editors welcome original contributions that have not been and are not to be published elsewhere. Instruction to authors and a manuscript submissions form are printed at the end of each issue. Bulk reprints of individual articles can be ordered. This publication is partially supported by Korea Research Foundation and the Korean Federation of Science and Technology Societies.
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