Enhancing vacuum surface flashover voltage of alumina insulator by self-assembly of fluorine-containing molecule

IF 2.7 3区 物理与天体物理 Q2 PHYSICS, APPLIED Journal of Applied Physics Pub Date : 2024-09-03 DOI:10.1063/5.0219587
Yankun Huo, Wenyuan Liu, Yajiao He, Hongjie Wang, Jun Cheng, Changfeng Ke
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Abstract

In this study, a fluorocarbon chain was grafted on the surface of the alumina insulator through the molecule self-assembly of perfluorododecyl trichlorosilane to enhance the vacuum surface flashover voltage. A hydrocarbon chain with the same molecular structure, devoid of fluorine element, was also grafted through the self-assembly of dodecyl trichlorosilane to enable comparison. The surface state examination of the self-assembled alumina insulators shows that both the molecules are attached to the alumina surface. The arrangement of the molecules on the surface is regular. Surface property tests reveal that the fluorocarbon chain endows the surface of alumina with a lower secondary electron emission yield and a lower gas adsorption volume than the hydrocarbon chain. Correspondingly, the surface flashover voltage of the fluorocarbon chain grafted insulator is higher than that of the hydrocarbon chain. This implies that the surface flashover voltage can be improved through surface fluorination, which converts hydrocarbon bonds to fluorocarbon bonds. The study demonstrates this possibility at the molecule level.
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通过含氟分子的自组装提高氧化铝绝缘体的真空表面闪络电压
在这项研究中,通过全氟十二烷基三氯硅烷的分子自组装,在氧化铝绝缘体表面接枝了一条碳氢化合物链,以提高真空表面闪络电压。为了进行比较,还通过十二烷基三氯硅烷的自组装接枝了分子结构相同但不含氟元素的碳氢链。对自组装氧化铝绝缘体的表面状态检测表明,两种分子都附着在氧化铝表面。分子在表面的排列很有规律。表面性质测试表明,与碳氢化合物链相比,碳氟化合物链使氧化铝表面的二次电子发射率更低,气体吸附量更小。相应地,氟碳链接枝绝缘体的表面闪络电压也高于碳氢链。这意味着可以通过表面氟化将碳氢化合物键转化为碳氟化合物键来提高表面闪络电压。这项研究在分子水平上证明了这种可能性。
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来源期刊
Journal of Applied Physics
Journal of Applied Physics 物理-物理:应用
CiteScore
5.40
自引率
9.40%
发文量
1534
审稿时长
2.3 months
期刊介绍: The Journal of Applied Physics (JAP) is an influential international journal publishing significant new experimental and theoretical results of applied physics research. Topics covered in JAP are diverse and reflect the most current applied physics research, including: Dielectrics, ferroelectrics, and multiferroics- Electrical discharges, plasmas, and plasma-surface interactions- Emerging, interdisciplinary, and other fields of applied physics- Magnetism, spintronics, and superconductivity- Organic-Inorganic systems, including organic electronics- Photonics, plasmonics, photovoltaics, lasers, optical materials, and phenomena- Physics of devices and sensors- Physics of materials, including electrical, thermal, mechanical and other properties- Physics of matter under extreme conditions- Physics of nanoscale and low-dimensional systems, including atomic and quantum phenomena- Physics of semiconductors- Soft matter, fluids, and biophysics- Thin films, interfaces, and surfaces
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