Defect Engineering in Two Common Types of Dielectric Materials for Electromagnetic Absorption Applications

电介质 介电常数 微波食品加热 极化率 极化(电化学) 半导体 介电损耗 耗散因子 电导率 热传导 兴奋剂 吸收(声学) 光电子学 介电谱 材料科学 凝聚态物理 化学物理 复合材料 电极 电化学 计算机科学 化学 电信 物理化学 物理 有机化学 分子
作者
Bin Quan,Wenhao Shi,Samuel Jun Hoong Ong,Xiaochi Lu,Luyuan Paul Wang,Guangbin Ji,Yufeng Guo,Lirong Zheng,Zhichuan J. Xu
出处
期刊:Advanced Functional Materials [Wiley]
卷期号:29 (28) 被引量:635
标识
DOI:10.1002/adfm.201901236
摘要

Abstract Dielectric materials are greatly desired for electromagnetic absorption applications. Lots of research shows that conduction loss and polarization are two of the most important factors determining complex permittivity. However, the detailed dissipation mechanisms for the improved microwave absorption performance are often based on semiempirical rules, lacking practical data relationships between conduction loss/polarization and dielectric behaviors. Here, a strategy of introducing point defects is used to understand such underlying relationships, where polarizability and conductivity are adjustable by manipulating oxygen deficiency or heteroatoms. Based on first principles calculations and the applied oxygen‐deficient strategy, dielectric polarization is shown to be dominant in determining the permittivity behaviors in semiconductors. Meanwhile, the presented nitrogen doping strategy shows that conduction loss is dominant in determining the permittivity behavior in graphitized carbon materials. The validity of the methods for using point defects to explore the underlying relations between conduction loss/polarization and dielectric behaviors in semiconductor and graphitized carbon are demonstrated for the first time, which are of great importance in optimizing the microwave absorption performance by defect engineering and electronic structure tailoring.
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