用十二烷基硫酸钠(SLS)稳定的硒纳米粒子的表征和原子模拟

IF 0.8 Q3 Engineering Nanotechnologies in Russia Pub Date : 2024-03-21 DOI:10.1134/S263516762360092X
A. A. Blinova, A. V. Blinov, A. V. Serov, A. G. Khramtsov, Z. A. Rekhman, A. A. Gvozdenko, A. B. Golik, D. D. Filippov, M. A. Kolodkin, E. V. Zabavicheva
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引用次数: 0

摘要

本文介绍了用十二烷基硫酸钠(SLS)稳定硒纳米粒子的研究结果。硒纳米粒子是在水介质中通过化学还原法获得的。研究表明,合成纳米粒子的最佳参数为硒、亚硒酸的浓度为 0.04 M、十二烷基硫酸钠的浓度为 0.1 M、抗坏血酸的浓度为 0.75 M。对介质活性酸度影响的研究表明,所获得的硒纳米粒子在 pH 值为 2 至 8 时表现出聚集稳定性。对硒纳米粒子发生聚集的不同反应的分析表明,金属阳离子的粒度对粒子聚集有显著影响。
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Characterization and Atomic Simulation of Selenium Nanoparticles Stabilized with Sodium Lauryl Sulfate (SLS)

This paper presents the results of studying selenium nanoparticles stabilized with sodium lauryl sulfate (SLS). Selenium nanoparticles are obtained by chemical reduction in an aqueous medium. It is shown that the optimal parameters for the synthesis of nanoparticles are selenium, the concentration of selenous acid is 0.04 M, the concentration of sodium lauryl sulfate is 0.1 M, and the concentration of ascorbic acid is 0.75 M. Investigation of the effect of the medium active acidity showed that obtained selenium nanoparticles exhibit aggregation stability at a pH from 2 to 8. The analysis of a different reaction to the aggregation of the occurrence of selenium nanoparticles reveals a significant effect on the particle size of metal cations, accompanied by particle aggregation.

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来源期刊
Nanotechnologies in Russia
Nanotechnologies in Russia NANOSCIENCE & NANOTECHNOLOGY-
CiteScore
1.20
自引率
0.00%
发文量
0
期刊介绍: Nanobiotechnology Reports publishes interdisciplinary research articles on fundamental aspects of the structure and properties of nanoscale objects and nanomaterials, polymeric and bioorganic molecules, and supramolecular and biohybrid complexes, as well as articles that discuss technologies for their preparation and processing, and practical implementation of products, devices, and nature-like systems based on them. The journal publishes original articles and reviews that meet the highest scientific quality standards in the following areas of science and technology studies: self-organizing structures and nanoassemblies; nanostructures, including nanotubes; functional and structural nanomaterials; polymeric, bioorganic, and hybrid nanomaterials; devices and products based on nanomaterials and nanotechnology; nanobiology and genetics, and omics technologies; nanobiomedicine and nanopharmaceutics; nanoelectronics and neuromorphic computing systems; neurocognitive systems and technologies; nanophotonics; natural science methods in a study of cultural heritage items; metrology, standardization, and monitoring in nanotechnology.
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