Study of the Synthesis Process and Properties of the Vanadium Pentoxide Nanoparticles

Q3 Mathematics

Herald of the Bauman Moscow State Technical University. Series Natural Sciences Pub Date : 2023-04-01 DOI:10.18698/1812-3368-2023-2-126-139

O. Yarovaya, Yu. M. Averina, R. Magzhanov, B. Karetkin, V. I. Panfilov, V. Boldyrev

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Abstract

The paper presents results of studying the possibility of synthesizing aqueous dispersions of the vanadium (V) oxide nanoparticles that retain aggregative stability for a long period. The experiments performed resulted in obtaining tubular nanoparticles of the vanadium pentoxide (V2O5) 50 µm long and 5--10 nm in diameter. Wall thickness of the obtained tubes was 1.1 nm. It was experimentally established that type of the acid used was not affecting the resulting nanoparticles size, but was significantly effecting the shelf life. To increase the nanoparticles optimal shelf life, it is proposed to use the hydrochloric acid solutions as the peptizing agent. This method made it possible not only to increase the system stability, but also to raise the nanoparticles concentration up to 1 % of the mass. In the framework of experiments on studying the obtained particles surface characteristics, it was found that nanoparticles in the range of pH = 3.0--4.2 were negatively charged, and aggregation stability was mainly determined by the electrostatic factor. The proposed chemical technology could be used in industrial production of the vanadium pentoxide nanoparticles in various industries

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五氧化二钒纳米颗粒的合成工艺及性能研究

本文介绍了研究合成钒(V)氧化物纳米粒子的水分散体的可能性的结果，该纳米体在很长一段时间内保持聚集稳定性。实验结果得到了长50µm，直径5 ~ 10nm的五氧化钒(V2O5)管状纳米颗粒。所得管壁厚为1.1 nm。实验证明，酸的种类对纳米颗粒的大小没有影响，但对保质期有显著影响。为了延长纳米颗粒的最佳保质期，建议使用盐酸溶液作为助剂。这种方法不仅可以提高系统的稳定性，而且可以将纳米颗粒浓度提高到质量的1%。在对所得颗粒表面特性研究的实验框架中，发现pH = 3.0—4.2范围内的纳米颗粒带负电荷，聚集稳定性主要由静电因素决定。该工艺可用于工业生产五氧化二钒纳米颗粒

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来源期刊

Herald of the Bauman Moscow State Technical University. Series Natural Sciences Mathematics-Mathematics (all)

CiteScore

1.10

自引率

0.00%

发文量

期刊介绍： The journal is aimed at publishing most significant results of fundamental and applied studies and developments performed at research and industrial institutions in the following trends (ASJC code): 2600 Mathematics 2200 Engineering 3100 Physics and Astronomy 1600 Chemistry 1700 Computer Science.