Advanced calcium copper titanate/polyimide functional hybrid films with high dielectric permittivity

Zhi Min Dang; Tao Zhou; Sheng Hong Yao; Jin Kai Yuan; Jun Wei Zha; Hong Tao Song; Jian Ying Li; Qiang Chen; Wan Tai Yang; Jinbo Bai

doi:10.1002/adma.200803427

Advanced calcium copper titanate/polyimide functional hybrid films with high dielectric permittivity

Zhi Min Dang
, Tao Zhou
, Sheng Hong Yao
, Jin Kai Yuan
, Jun Wei Zha
, Hong Tao Song
, Jian Ying Li
, Qiang Chen
, Wan Tai Yang
, Jinbo Bai

电气工程学院

Beijing University of Chemical Technology
Xi'an Jiaotong University
Beijing Institute of Graphic Communication
Ecole Centrale Paris

科研成果: 期刊稿件 › 文章 › 同行评审

423 引用（Scopus）

摘要

A study was conducted to investigate advanced calcium copper titanate (CCTO) and polyimide (PI) functional hybrid films with high dielectric permittivity. The CCTO and PI hybrid films showed better dielectric properties as the in situ polymerization process drove the CCTO fillers into the PI homogeneously. The giant dielectric permittivity originated from the internal boundary layer capacitance. The semiconducting characteristic of the CCTO fillers induced the resultant high dielectric permittivity, the resultant high dielectric permittivity, and PI hybrid films. It was assumed that the giant dielectric permittivity of CCTO was to complement and increase the overall dielectric permittivity of the CCTO and PI hybrid films. The study also revealed an advanced high-K CCTO and PI functional hybrid film that displayed other significant properties.

源语言	英语
页（从-至）	2077-2082
页数	6
期刊	Advanced Materials
卷	21
期	20
DOI	https://doi.org/10.1002/adma.200803427
出版状态	已出版 - 25 5月 2009

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10.1002/adma.200803427

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title = "Advanced calcium copper titanate/polyimide functional hybrid films with high dielectric permittivity",

abstract = "A study was conducted to investigate advanced calcium copper titanate (CCTO) and polyimide (PI) functional hybrid films with high dielectric permittivity. The CCTO and PI hybrid films showed better dielectric properties as the in situ polymerization process drove the CCTO fillers into the PI homogeneously. The giant dielectric permittivity originated from the internal boundary layer capacitance. The semiconducting characteristic of the CCTO fillers induced the resultant high dielectric permittivity, the resultant high dielectric permittivity, and PI hybrid films. It was assumed that the giant dielectric permittivity of CCTO was to complement and increase the overall dielectric permittivity of the CCTO and PI hybrid films. The study also revealed an advanced high-K CCTO and PI functional hybrid film that displayed other significant properties.",

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year = "2009",

month = may,

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AU - Dang, Zhi Min

AU - Zhou, Tao

AU - Yao, Sheng Hong

AU - Yuan, Jin Kai

AU - Zha, Jun Wei

AU - Song, Hong Tao

AU - Li, Jian Ying

AU - Chen, Qiang

AU - Yang, Wan Tai

AU - Bai, Jinbo

PY - 2009/5/25

Y1 - 2009/5/25

N2 - A study was conducted to investigate advanced calcium copper titanate (CCTO) and polyimide (PI) functional hybrid films with high dielectric permittivity. The CCTO and PI hybrid films showed better dielectric properties as the in situ polymerization process drove the CCTO fillers into the PI homogeneously. The giant dielectric permittivity originated from the internal boundary layer capacitance. The semiconducting characteristic of the CCTO fillers induced the resultant high dielectric permittivity, the resultant high dielectric permittivity, and PI hybrid films. It was assumed that the giant dielectric permittivity of CCTO was to complement and increase the overall dielectric permittivity of the CCTO and PI hybrid films. The study also revealed an advanced high-K CCTO and PI functional hybrid film that displayed other significant properties.

AB - A study was conducted to investigate advanced calcium copper titanate (CCTO) and polyimide (PI) functional hybrid films with high dielectric permittivity. The CCTO and PI hybrid films showed better dielectric properties as the in situ polymerization process drove the CCTO fillers into the PI homogeneously. The giant dielectric permittivity originated from the internal boundary layer capacitance. The semiconducting characteristic of the CCTO fillers induced the resultant high dielectric permittivity, the resultant high dielectric permittivity, and PI hybrid films. It was assumed that the giant dielectric permittivity of CCTO was to complement and increase the overall dielectric permittivity of the CCTO and PI hybrid films. The study also revealed an advanced high-K CCTO and PI functional hybrid film that displayed other significant properties.

UR - https://www.scopus.com/pages/publications/66349088776

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DO - 10.1002/adma.200803427

M3 - 文章

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SN - 0935-9648

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SP - 2077

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ER -

Advanced calcium copper titanate/polyimide functional hybrid films with high dielectric permittivity

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