物理学报2017,Vol.66Issue(6):308-317,10.DOI:10.7498/aps.66.067701
聚丙烯/氧化铝纳米电介质的陷阱与直流击穿特性
Trap distribution and direct current breakdown characteristics in polypropylene/Al2O3 nanodielectrics
摘要
Abstract
Polypropylene (PP) is widely used as capacitor films due to its better dielectric, mechanical, and thermal perfor-mance. In order to reduce the cost and size of capacitor, high energy density for PP dielectric is pursued. Since energy density is in quadratic proportion to direct current (dc) breakdown strength for linear dielectric, the enhancement of dc breakdown strength for PP dielectric is a primary choice to improve the energy density. Considering that the incorpo-ration of nano-Al2O3 is an effective method to improve the dc breakdown strength for polymer, it is required to study the dc breakdown strength of PP/Al2O3 nanodielectric.In order to explore the breakdown mechanism, PP/Al2O3 nanodielectrics with different nano-particle contents are prepared by melt blending, and the samples are prepared by hot pressing. Their microstructures are observed by scan-ning electron microscopic. Isothermal surface potential decay, bulk resistivity, and dc breakdown strength of the samples are also measured. The experimental results show that the energy and density of deep traps, bulk resistivity, and dc breakdown strength first increase and then decrease with the increase in nano-Al2O3 content. The maximum values are obtained at a filer content value of 0.5 wt%, where dc breakdown strength can be increased by about 27%. Based on interface model, the relation between microstructure and trap is investigated. In view of space charge breakdown theory, the mechanism of dc breakdown for PP/Al2O3 nanodielectric is explored by trap parameters. It is indicated that the interface can provide more deep traps in PP/Al2O3 nanodielectric, while the decrease in the energy and density of deep traps can be attributed to the overlap of interfaces in electrical double layer. The increase in the energy and density of deep traps makes more carriers trapped near the injecting contact, thus reducing the effective field for carrier injection due to the internal field generated by the trapped carriers. The reduction of carrier injection can moderate the distortion of field in PP dielectric, consequently, resulting in enhancing the dc breakdown strength.关键词
聚丙烯/纳米电介质/直流击穿场强/陷阱Key words
polypropylene/nanodielectric/direct current breakdown strength/trap引用本文复制引用
马超,闵道敏,李盛涛,郑旭,李西育,闵超,湛海涯..聚丙烯/氧化铝纳米电介质的陷阱与直流击穿特性[J].物理学报,2017,66(6):308-317,10.基金项目
国家重点基础研究发展计划(批准号:2015CB251003)、清华大学电力系统国家重点实验室开放课题(批准号:SKLD16KZ04)、中国博士后科学基金(批准号:2014M552449)、中央高校基本科研业务费(批准号:xjj2014022)和西安交通大学"新教师支持计划"(批准号:DWSQc130000008) 资助的课题. Project supported by the National Basic Research Program of China (Grant No. 2015CB251003), the Open Fund Project of State Key Laboratory of Power System of Tsinghua University, China (Grant No. SKLD16KZ04), the China Postdoctoral Science Foundation (Grant No. 2014M552449), the Fundamental Research Fund for the Central Universities, China (Grant No. xjj2014022), and the Program for New Teacher of Xi'an Jiaotong University, China (Grant No. DWSQc130000008). (批准号:2015CB251003)
