Improvement of the electro insulating characteristics of anodic nanoporous aluminum oxide insulator by filling with silicon dioxide

PHYSICS, TECHNOLOGIES AND INNOVATION (PTI-2019): Proceedings of the VI International Young Researchers’ Conference Pub Date : 2019-12-06 DOI:10.1063/1.5134155

A. Arnautov, Y. Yuferov, F. Zykov, A. Chukin, Valerya Kudyakova, R. Shishkin

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引用次数: 2

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.

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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

本文介绍了在纳米多孔材料中沉积二氧化硅的实验装置。以铝为原料制备纳米多孔材料，纯度为99.7%。将该基质浸渍在含有四乙氧基硅烷的有机介质中。用XRD对所得产物进行了分析，用扫描电镜结合能量色散分析对二氧化硅的扩散进行了研究。研究了有机液体介质化学沉淀法填充纳米多孔材料的特点。研究了复合材料的电物理特性。提出了提高含无机氧化物的纳米多孔无机体系占有率的技术。本文介绍了在纳米多孔材料中沉积二氧化硅的实验装置。以铝为原料制备纳米多孔材料，纯度为99.7%。将该基质浸渍在含有四乙氧基硅烷的有机介质中。用XRD对所得产物进行了分析，用扫描电镜结合能量色散分析对二氧化硅的扩散进行了研究。研究了有机液体介质化学沉淀法填充纳米多孔材料的特点。研究了复合材料的电物理特性。提出了提高含无机氧化物的纳米多孔无机体系占有率的技术。

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PHYSICS, TECHNOLOGIES AND INNOVATION (PTI-2019): Proceedings of the VI International Young Researchers’ Conference

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