导电聚合物及其微纳米结构
导电聚合物及其微纳米结构封面图

导电聚合物及其微纳米结构

万梅香, 著

出版社:清华大学出版社

年代:2008

定价:60.0

书籍简介:

本书比较完整、系统地介绍了导电聚合物的缘起、特性和研究进展情况,特别介绍了作者领导的研究组在这方面的研究情况和学术贡献。本书适合高校和科研院所的化学、化工、材料、物理等专业的研究人员和研究生阅读参考。

书籍目录:

Chapter I Introduction of Conducting Polymers

1.1 Discovery of Conducting Polymers

1.2 Structural Characteristics and Doping Concept

1.3 Charge Carriers and Conducting Mechanism

References

Chapter 2 Polyaniline as A Promising Conducting Polymer

2.1 Molecular Structure and Proton Doping

2.2 Synthesis Method

2.2.1 Chemical Method

2.2.2 Electro-Chemical Method

2.2.3 Mechano-Chemical Route

2.3 Physical Properties .

2.3.1 Nonlinear Optical (NLO)

2.3.2 Electrical and Charge Transport Properties

2.3.3 Magnetic Properties

2.3.4 Other Properties

2.4 Solubility and Processability

2.4.1 Solubility

2.4.2 Processability

References

Chapter 3 Physical Properties and Associated Applications of Conducting Polymers

3.1 Electronic Devices

3.1.1 Light Emitting Diodes (LEDs)

3.1.2 Solar Cells

3.2 EMI Shielding and Microwave Absorbing Materials

3.2.1 EMI Shielding Materials

3.2.2 Microwave Absorption Materials (Stealth Materials)

3.3 Rechargeable Batteries and Supercapacitors

3.3.1 Rechargeable Batteries

3.3.2 Supercapacitors

3.4 Sensors

3.5 Electrochromic Devices and Artificial Muscles

3.5.1 Electrochromic Devices

3.5.2 Conducting Polymer-Based Artificial Muscles

3.6 Others

3.6.1 Corrosion Materials

3.6.2 Electrostatic Dissipation Materials

3.6.3 Separated Membrane

3.6.4 Conducting Textiles

References

Chapter 4 Conducting Polymer Nanostructures

4.1 Synthetic Method and Formation Mechanism

4.1.1 Hard Template Method

4.1.2 Soft Template Method

4.1.3 Other Methods

4.1.4 PEDOT Nanostructures

4.2 Composite Nanostructures

4.2.1 Metal-Conducting Polymer Composite Nanostructures

4.2.2 Conducting Polymer/Carbon Nanotube Composites

4.2.3 Core-Shell Composites

4.2.4 Chiral and Biological Composite Nanostructures

4.2.5 Inorganic Oxide Nano-Crystals and CP Composites

4.3 Physical Properties and Potential Application

4.3.1 Electrical and Transport Properties

4.3.2 Potential Applications

4.3.3 Nano-arrays or Nano-patents

References

Chapter 5 Template-Free Method to Conducting Polymer MicrofNanostructures

5.1 Template-Free Method

5.1.1 Discovery of Template-Free Method

5.1.2 Universality of Template-Free Method

5.1.3 Controllability of Morphology and Diameter by Template-Free Method

5.1.4 Self-Assembly Mechanism of Micro/Nanostructures by A Template-Free Method

5.2 Multi-Functionality of Micro/Nanostmctures Based on Template-Free Method

5.2.1 Processing Composite Nanostructures

5.2.2 PPy-CNT Composite Nanostructures

5.2.3 Electro-Magnetic Functional Micro/Nanostructures

5.2.4 Electro-Optic Micro/Nanostructures

5.2.5 Super-Hydrophobic 3D-Microstructures Assembled from 1D-Nanofibers

5.3 Mono-Dispersed and Oriented Micro/Nanostructures

5.3. I Template-Free Method Combined with A1203 Template for Oriented Nanowires

5.3.2 Template-Free Method Associated with A Deposition to Mono-Dispersed and Oriented Microspheres

5.4 Electrical and Transport Properties of Conducting Polymer Nanostructures

5.4.1 Room Temperature Conductivity

5.4.2 Temperature Dependence of Conductivity

5.4.3 Electrical Properties of A Single Micro/Nanostructure

5.4.4 Magneto-Resistance

5.5 Special Methods for Micro/Nanostructures of Conducting Polymers

5.5.1 Aniline/Citric Acid Salts as The "Hard-Templates" for Brain-like Nanostructures

5.5.2 Cu20 Crystal as A Hard Template

5.5.3 Water-Assisted Fabrication of PANI-DBSA Honeycomb Structure

5.5.4 Reversed Micro-Emulsion Polymerization

5.6 Potential Applications of Conducting Polymer with Micro/Nanostructures

5.6.1 Microwave Absorbing Materials

5.6.2 EMI Shielding Materials

5.6.3 Conducting Polymer Nanostructure-Based Sensors Guided by Reversible Wettability

References

Appendix Term Definitions

内容摘要:

《微纳米结构的导电聚合物》适合高校和科研院所的化学、化工、物理及材料专业的研究人员、教师和研究生阅读参考。导电聚合物打破了聚合物为绝缘体的传统观念,因而被称为“第四代聚合物”。它既具有金属和半导体的导电特性,又保留了聚合物的轻质、柔性和可加工的特色。这种材料在光电子器件、传感技术、分子电子学和纳米器件以及驱动器件等方面具有潜在的应用前景。《微纳米结构的导电聚合物》比较完整、系统地介绍了导电聚合物的缘起、掺杂与导电机制、结构与性能、技术应用前景以及研究进展,特别介绍了作者采用无模板自组装方法在微纳米结构的导电聚合物的研究及其应用方面的学术贡献。《微纳米结构的导电聚合物》的内容分为5章:第1章,导论;第2章,优异的导电聚苯胺;第3章,导电聚合物的物理特性及其应用;第4章,导电聚合物的微纳米结构;第5章,无模板法自组装导电聚合物的微纳米结构。为了便于读者阅读,作者还特别给出了名词解释。

编辑推荐:

Conducting Polymers with Micro or Nanometer Structure describes a topicdiscovered by three winners of the Nobe·Prize in Chemistry in 2000: AlanJ. Heeger, University of California at Santa Barbara, Alan G. MacDiarmid at the University of Pennsylvania, and Hideki Shirakawa at the University ofTsukuba. Since then, the unique properties of conducting polymers have ledto promising applications in functiona·materials and technologies. The bookfirst briefly summarizes the main concepts of conducting polymers beforeintroducing micro/nanostructured conducting polymers dealing with theirsynthesis, structura·characterizations, formation mechanisms, physica·and chemica·properties, and potentia·applications in nanomaterials andnanotechnology. The book is intended for researchers in the related fieldsof chemistry, physics, materials, nanomaterials and nanodevices. MeixiangWan is a professor at the Institute .of Chemistry, Chinese Academy ofSciences, Beijing.

书籍规格:

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出版地北京出版单位清华大学出版社
版次1版印次1
定价(元)60.0语种英文
尺寸26装帧平装
页数 300 印数 1000

书籍信息归属:

导电聚合物及其微纳米结构是清华大学出版社于2008.07出版的中图分类号为 TB383 ,O631.2 的主题关于 导电性-高聚物-英文 ,纳米材料-结构-英文 的书籍。