单壁碳纳米管传感器检测SF6局部放电分解组分的气敏性研究电气工程专业论文.docx

重庆大学硕士学位论文英文摘要 重庆大学硕士学位论文 英文摘要 PAGE PAGE IV also indicated that the adsorption capacity of SWNT-OH on gas components was larger than that of SWNT. SWNT-OH and SWNT sensors were prepared ， using interdigitated electrodes printed circuit board as the base. The standard gases SOF2, SO2F2, SO2 and CF4 were used to sensors experiments.The analysis and investigation were focused on the gas response of SWNT-OH sensor through the comparison of gas-sensing properties of two types of sensors. To explore the relationship between the rate of resistance change of SWNT-OH and the concentration of SO2, their response curves were linearly fitted. Subsequently, the recovery characteristics and stability of SWNT-OH sensor were investigated as well. Experimental results indicated that SWNT-OH sensor had the fastest response speed and highest sensitivity to SO2; it satisfied certain linear relations between the resistance change rate of SWNT-OH and SO2 gas concentration; the SWNT-OH sensor could be self-recovery in the air, and the recovery time was short; to a certain extent, the SWNT-OH sensor met the stability requirements. Key words: Partial discharge (PD); SF6 decomposition components; single-walled carbon nanotube; SO2; gas sensitivity 重庆大学硕士学位论文目录 重庆大学硕士学位论文 目录 目 录 中文摘要 I 英文摘要II HYPERLINK \l _bookmark0 1 绪论 1 HYPERLINK \l _bookmark1 1.1 检测 SF6 局放分解组分的意义 1 HYPERLINK \l _bookmark2 1.2 GIS 局部放电及 SF6 分解组分的研究现状 2 HYPERLINK \l _bookmark3 GIS 局部放电 2 HYPERLINK \l _bookmark4 SF6 分解原因 4 HYPERLINK \l _bookmark5 SF6 分解机理 5 HYPERLINK \l _bookmark6 1.2.4 SF6 局放分解组分检测方法 7 HYPERLINK \l _bookmark7 1.3 碳纳米管概述 7 HYPERLINK \l _bookmark8 1.3.1 结构 8 HYPERLINK \l _bookmark9 1.3.2 性质 9 HYPERLINK \l _bookmark10 1.3.2 应用 10 HYPERLINK \l _bookmark11 1.4 单壁碳纳米管气体传感器的研究现状 11 HYPERLINK \l _bookmark12 1.5 本文研究的主要内容 13 HYPERLINK \l _bookmark13 2 单壁碳纳米管的制备和表征及气敏特性 14 HYPERLINK \l _bookmark14 2.1 引言 14 HYPERLINK \l _bookmark15 2.2 制备方法 14 HYPERLINK \l _bookmark16 2.3 表征方法 15 HYPE