A. Arnautov, Y. Yuferov, F. Zykov, A. Chukin, Valerya Kudyakova, R. Shishkin
{"title":"二氧化硅填充改善阳极纳米多孔氧化铝绝缘子的电绝缘性能","authors":"A. Arnautov, Y. Yuferov, F. Zykov, A. Chukin, Valerya Kudyakova, R. Shishkin","doi":"10.1063/1.5134155","DOIUrl":null,"url":null,"abstract":"This paper describes an experimental setup for the deposition of silicon dioxide in a nanoporous material. Nanoporous material was obtained from aluminum, 99.7 % purity. The matrix was impregnated in organic media containing tetraethoxysilane. The obtained product was analyzed using XRD while the diffusion of silicon dioxide was examined using scanning electron microscopy in combination with energy dispersive analysis. The characteristics of the filling of nanoporous materials by chemical precipitation from organic liquid media are considered. Electrophysical characteristics of the obtained composite were studied. Techniques are proposed for improving the occupancy rates of nanoporous inorganic systems with inorganic oxide components.This paper describes an experimental setup for the deposition of silicon dioxide in a nanoporous material. Nanoporous material was obtained from aluminum, 99.7 % purity. The matrix was impregnated in organic media containing tetraethoxysilane. The obtained product was analyzed using XRD while the diffusion of silicon dioxide was examined using scanning electron microscopy in combination with energy dispersive analysis. The characteristics of the filling of nanoporous materials by chemical precipitation from organic liquid media are considered. Electrophysical characteristics of the obtained composite were studied. Techniques are proposed for improving the occupancy rates of nanoporous inorganic systems with inorganic oxide components.","PeriodicalId":418936,"journal":{"name":"PHYSICS, TECHNOLOGIES AND INNOVATION (PTI-2019): Proceedings of the VI International Young Researchers’ Conference","volume":"61 1","pages":"0"},"PeriodicalIF":0.0000,"publicationDate":"2019-12-06","publicationTypes":"Journal Article","fieldsOfStudy":null,"isOpenAccess":false,"openAccessPdf":"","citationCount":"2","resultStr":"{\"title\":\"Improvement of the electro insulating characteristics of anodic nanoporous aluminum oxide insulator by filling with silicon dioxide\",\"authors\":\"A. Arnautov, Y. Yuferov, F. Zykov, A. Chukin, Valerya Kudyakova, R. Shishkin\",\"doi\":\"10.1063/1.5134155\",\"DOIUrl\":null,\"url\":null,\"abstract\":\"This paper describes an experimental setup for the deposition of silicon dioxide in a nanoporous material. Nanoporous material was obtained from aluminum, 99.7 % purity. The matrix was impregnated in organic media containing tetraethoxysilane. The obtained product was analyzed using XRD while the diffusion of silicon dioxide was examined using scanning electron microscopy in combination with energy dispersive analysis. The characteristics of the filling of nanoporous materials by chemical precipitation from organic liquid media are considered. Electrophysical characteristics of the obtained composite were studied. Techniques are proposed for improving the occupancy rates of nanoporous inorganic systems with inorganic oxide components.This paper describes an experimental setup for the deposition of silicon dioxide in a nanoporous material. Nanoporous material was obtained from aluminum, 99.7 % purity. The matrix was impregnated in organic media containing tetraethoxysilane. The obtained product was analyzed using XRD while the diffusion of silicon dioxide was examined using scanning electron microscopy in combination with energy dispersive analysis. The characteristics of the filling of nanoporous materials by chemical precipitation from organic liquid media are considered. Electrophysical characteristics of the obtained composite were studied. 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Improvement of the electro insulating characteristics of anodic nanoporous aluminum oxide insulator by filling with silicon dioxide
This paper describes an experimental setup for the deposition of silicon dioxide in a nanoporous material. Nanoporous material was obtained from aluminum, 99.7 % purity. The matrix was impregnated in organic media containing tetraethoxysilane. The obtained product was analyzed using XRD while the diffusion of silicon dioxide was examined using scanning electron microscopy in combination with energy dispersive analysis. The characteristics of the filling of nanoporous materials by chemical precipitation from organic liquid media are considered. Electrophysical characteristics of the obtained composite were studied. Techniques are proposed for improving the occupancy rates of nanoporous inorganic systems with inorganic oxide components.This paper describes an experimental setup for the deposition of silicon dioxide in a nanoporous material. Nanoporous material was obtained from aluminum, 99.7 % purity. The matrix was impregnated in organic media containing tetraethoxysilane. The obtained product was analyzed using XRD while the diffusion of silicon dioxide was examined using scanning electron microscopy in combination with energy dispersive analysis. The characteristics of the filling of nanoporous materials by chemical precipitation from organic liquid media are considered. Electrophysical characteristics of the obtained composite were studied. Techniques are proposed for improving the occupancy rates of nanoporous inorganic systems with inorganic oxide components.
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