用于x射线对比诊断和电离辐射防护的氧化铋基基质纳米系统

Doklady Belorusskogo gosudarstvennogo universiteta informatiki i radioelektroniki Pub Date : 2023-03-02 DOI:10.35596/1729-7648-2023-21-1-89-93

V. S. Fedosenko, M. Iji, A. Lozovenko, G. Gorokh

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引用次数: 0

摘要

研究了离子层法制备氧化铋在阳极氧化铝和阳极二氧化钛基体上的沉积特性。通过电子显微镜复制、x射线显微分析和x射线光谱学对所形成的纳米结构体系进行了研究。两层纳米复合材料由多孔基质或二氧化钛岛膜组成，表面放置有垂直定向的Bi2O3板。在345 nm激发下，Al2O3/Bi2O3氧化物结构的光致发光光谱包含两个光致发光通道，分别在460 nm和560 nm处出现峰值。EDX光谱分析表明，Bi、Ti和O的原子比为31.46% Bi: 3.78% Ti: 51.05% O，表明复合纳米复合材料在x射线诊断和电离辐射防护中用作造影剂的可能性。

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Bismuth Oxide-based Matrix Nanosystems for X-ray Contrast Diagnostics and Protection from Ionizing Radiation

The features of the bismuth oxide deposition by the ion layering method on matrices of anodic alumina and anodic titania have been studied. The formed nanostructured systems have been studied by means of electron micros copy, X-ray microanalysis, and X-ray spectroscopy. Two-layer nanocomposites consist of porous matrix or TiO2 island film with vertically oriented Bi2O3 plates placed on the surface. The photoluminescence spectrum of Al2O3/Bi2O3 oxide structure contains two photoluminescence channels with peaks at 460 and 560 nm upon excitation at 345 nm. Analysis of the EDX spectra showed that the atomic ratio of Bi, Ti and O was 31.46 % Bi : 3.78 % Ti : 51.05 % O. The possibility of using complex nanocomposite as contrast agents in X-ray diagnostics and for protection against ionizing radiation is shown.

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Doklady Belorusskogo gosudarstvennogo universiteta informatiki i radioelektroniki

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8 weeks