Description

Book Synopsis
Polymers are increasingly finding applications in the areas of energy storage and conversion. This book assimilates these advances in the form of a comprehensive text that includes the synthesis and properties of a large number of polymer systems for applications in the areas of lithium batteries, photovoltaics, solar cells, etc.

Table of Contents

Preface ix

List of Contributors xi

1 High Performance Polymer Hydrogel based Materials for Fuel Cells 1

1.1 Introduction 1

1.2 Hydrogel Electrolyte 3

1.3 Poly(vinyl alcohol) Hydrogel 4

Summary 19

References 20

2 PVAc Based Polymer Blend Electrolytes for Lithium Batteries 27

2.1 Introduction 27

Conclusion 49

References 49

3 Lithium Polymer Batteries Based on Ionic Liquids 53

3.1 Lithium Batteries 54

3.2 Lithium Polymer Batteries Containing Ionic Liquids 61

Battery Performance 88

Glossary 94

References 96

4 Organic Quantum Dots Grown by Molecular Layer Deposition for Photovoltaics 103

4.1 Introduction 104

4.2 Molecular Layer Deposition 105

4.3 Concept of Solar Cells with Organic Quantum Dots 107

4.4 Polymer Multiple Quantum Dots 110

4.5 Molecular Multiple Quantum Dots 120

4.6 Waveguide-Type Solar Cells 127

4.7 Summary 135

References 135

5 Solvent Effects in Polymer Based Organic Photovoltaics 137

5.1 Introduction 137

5.2 Solar Cell Device Structure and Prepartion 139

5.3 Spin-Coating of Active Layer 141

5.4 Influence of Solvent on Morphology 143

5.5 Residual Solvent 152

5.6 Summary 156

Acknowledgment 157

References 157

6 Polymer-Inorganic Hybrid Solar Cells 163

6.1 Introduction 163

6.2 Hybrid Conjugated Polymer-Inorganic Semiconductor Composites 173

6.3 Conclusion 185

References 191

7 Semiconducting Polymer-based Bulk Heterojunction Solar Cells 199

7.1 Introduction 199

7.2 Optical Properties of Semiconducting Polymers 200

7.3 Electrical Properties of Semiconducting Polymers 206

7.4 Mechanical Properties Polymer Solar Cells 208

7.5 Processing of Polymers 210

7.6 State-of-the-art of the Technology 212

References 213

8 Energy Gas Storage in Porous Polymers 215

8.1 Introduction 216

8.2 Microporous Organic Polymers 217

8.3 Characterization of MOPs 239

Conclusion 242

List of Abbreviation 242

References 243

Polymers for Energy Storage and Conversion

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A Hardback by Vikas Mittal

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    View other formats and editions of Polymers for Energy Storage and Conversion by Vikas Mittal

    Publisher: John Wiley & Sons Inc
    Publication Date: 21/06/2013
    ISBN13: 9781118344545, 978-1118344545
    ISBN10: 1118344545
    Also in:
    Chemistry Energy technology and engineering

    Description

    Book Synopsis
    Polymers are increasingly finding applications in the areas of energy storage and conversion. This book assimilates these advances in the form of a comprehensive text that includes the synthesis and properties of a large number of polymer systems for applications in the areas of lithium batteries, photovoltaics, solar cells, etc.

    Table of Contents

    Preface ix

    List of Contributors xi

    1 High Performance Polymer Hydrogel based Materials for Fuel Cells 1

    1.1 Introduction 1

    1.2 Hydrogel Electrolyte 3

    1.3 Poly(vinyl alcohol) Hydrogel 4

    Summary 19

    References 20

    2 PVAc Based Polymer Blend Electrolytes for Lithium Batteries 27

    2.1 Introduction 27

    Conclusion 49

    References 49

    3 Lithium Polymer Batteries Based on Ionic Liquids 53

    3.1 Lithium Batteries 54

    3.2 Lithium Polymer Batteries Containing Ionic Liquids 61

    Battery Performance 88

    Glossary 94

    References 96

    4 Organic Quantum Dots Grown by Molecular Layer Deposition for Photovoltaics 103

    4.1 Introduction 104

    4.2 Molecular Layer Deposition 105

    4.3 Concept of Solar Cells with Organic Quantum Dots 107

    4.4 Polymer Multiple Quantum Dots 110

    4.5 Molecular Multiple Quantum Dots 120

    4.6 Waveguide-Type Solar Cells 127

    4.7 Summary 135

    References 135

    5 Solvent Effects in Polymer Based Organic Photovoltaics 137

    5.1 Introduction 137

    5.2 Solar Cell Device Structure and Prepartion 139

    5.3 Spin-Coating of Active Layer 141

    5.4 Influence of Solvent on Morphology 143

    5.5 Residual Solvent 152

    5.6 Summary 156

    Acknowledgment 157

    References 157

    6 Polymer-Inorganic Hybrid Solar Cells 163

    6.1 Introduction 163

    6.2 Hybrid Conjugated Polymer-Inorganic Semiconductor Composites 173

    6.3 Conclusion 185

    References 191

    7 Semiconducting Polymer-based Bulk Heterojunction Solar Cells 199

    7.1 Introduction 199

    7.2 Optical Properties of Semiconducting Polymers 200

    7.3 Electrical Properties of Semiconducting Polymers 206

    7.4 Mechanical Properties Polymer Solar Cells 208

    7.5 Processing of Polymers 210

    7.6 State-of-the-art of the Technology 212

    References 213

    8 Energy Gas Storage in Porous Polymers 215

    8.1 Introduction 216

    8.2 Microporous Organic Polymers 217

    8.3 Characterization of MOPs 239

    Conclusion 242

    List of Abbreviation 242

    References 243

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