Description |
1 online resource (xviii, 428 pages) illustrations |
Series |
IET energy engineering series 158 |
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IET energy engineering series ; 158.
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Contents |
Introduction to electrostatic capacitor technology / Daniel Q. Tan -- Techniques for capacitor dielectrics characterization / Bo Li, Haijuan Zhang and Shihai Zhang -- Dielectric polymers and dielectric metamaterials for high-energy capacitors / Xin Chen, Tian Zhang, Yash Thakur, Qiyan Zhang and Q.M. Zhang -- Polymer/nanofiller composites / He Li and Qing Wang -- High-temperature polymer-based dielectrics for electrostatic energy storage / Sang Cheng and Qi Li -- Design and simulations of capacitor dielectrics by phase-field computations / Zhonghui Shen, Mengfan Guo, Long-Qing Chen and Yang Shen -- Rational design on polymer dielectrics / Yujie Zhu -- Inorganic dielectrics for high-energy-density capacitors / Guangzu Zhang, Shenglin Jiang, Muni Yu and Haibo Zhang -- Ceramic dielectrics for microwave communication / Zhifu Liu, Jing Guo and Hong Wang -- Ceramic dielectrics for MLCCs / Ziming Cai, Chaoqiong Zhu, Limin Guo, Longtu Li and Xiaohui Wang -- Future prospects : polymer part / Minhao Yang and Zhi-Min Dang -- Future prospects : ceramic part / Letao Yang, Xi Kong, Zhenxiang Cheng and Shujun Zhang |
Summary |
This book presents the current progress in searching and developing advanced dielectric materials towards high-performance electrostatic capacitors, as well as the basic principle in designing these materials. The focus of the material category in the book is polymer- and ceramic-based systems because they are currently the most pursued capacitor dielectrics on the market, and the main content of the book revolves around these two topics. The subject is elucidated from a materials science viewpoint by concentrating the discussion on the synthetic method and property- structure correlation. In addition to the experimental studies, chapters on the computational modelling are also included based on the consideration that this emerging method has proved efficient in the design and prediction of new dielectric materials, especially those occurring over the last decade. A comprehensive set of characterization techniques are introduced as a separate chapter to guide the evaluation of new dielectric materials prior to the commercialization efforts towards packaged capacitors. The book is designed to be self-contained for the purpose of guiding the development of novel capacitor dielectrics, which should be of use to graduate students, as well as scientists in both industry and academia |
Analysis |
dielectric materials |
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electrostatic capacitors |
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dielectric polymers |
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dielectric metamaterials |
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high-energy capacitors |
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polymer-nanofiller composites |
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high-temperature polymer-based dielectrics |
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electrostatic energy storage |
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phase-field computations |
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inorganic dielectrics |
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high-energy-density capacitors |
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microwave communication |
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ceramic dielectrics |
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MLCCs |
Bibliography |
Includes bibliographical references and index (pages 417-428) |
Notes |
Description based on online resource; title from PDF title page (IET Digital Library , viewed on March 18, 2021) |
Subject |
Capacitors.
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Dielectrics.
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Polymers.
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Polymers
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polymers.
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Capacitors
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Dielectrics
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Polymers
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capacitors
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dielectric materials
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electrostatic devices
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polymers
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Form |
Electronic book
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Author |
Li, Qi editor
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ISBN |
1785619896 |
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9781785619892 |
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