Description |
1 online resource (485 pages). |
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polychrome |
Description |
text file |
Series |
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ISSN.
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Description based upon print version of record. |
Contents |
Intro -- Half Title -- Series Title -- Title -- Copyright -- Preface -- Contents -- Chapter 1 Engineering the Architecture of 3D Graphene-based Macrostructures -- 1.1 Introduction -- 1.2 Graphene Aerogels -- 1.2.1 Sol-Gel Hydrogels, Freeze-drying, Gelation Methods -- 1.2.2 Template Methods -- 1.3 Graphene Aerogel Composites -- 1.3.1 Polymeric Graphene Aerogels (PGA) -- 1.3.2 Metal-doped Graphene Aerogels (MDGAs) -- 1.3.3 Carbon Nano Tube/Graphene Aerogels (CNT/GA) -- 1.3.4 Fullerene/Graphene Aerogels -- 1.4 3D Printing Methods of Graphene Aerogels -- 1.4.1 Direct Ink Writing (DIW) |
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1.4.2 Inkjet -- 1.4.3 Freeze Gelation -- 1.4.4 Casting -- 1.4.5 Projection Micro-stereolithography (PµSL) -- 1.4.6 Fused Deposition Modelling (FDM) -- 1.4.7 Laser-based Methods -- 1.4.8 Other Methods -- 1.5 Conclusion -- Acknowledgements -- References -- Chapter 2 Structure-Property Relationships in 3D Graphene-based Macrostructures -- 2.1 Introduction -- 2.2 Structure-Property Relationship in 3D GBMs -- 2.2.1 3D Graphene Networks -- 2.2.2 Graphene Fibres and Tubes -- 2.2.3 Vertical Graphene Sheets -- 2.2.4 Graphene Cages -- 2.2.5 3D Porous Graphene Films -- 2.3 Conclusions -- Acknowledgements |
Bibliography |
References -- Chapter 3 Flexible 3D Graphene-based Electrodes for Ultrahigh Performance Lithium Ion Batteries -- 3.1 Introduction -- 3.2 Flexible 3D Graphene-based Cathode Materials -- 3.2.1 Intercalation-type Cathode Materials Based on 3D GBMs -- 3.2.2 Conversion-type Cathode Materials Based on 3D GBMs -- 3.3 Flexible 3D Graphene-based Anode Materials -- 3.3.1 Intercalation-type Anode Materials Based on 3D GBMs -- 3.3.2 Conversion-type Anode Materials Based on 3D GBMs -- 3.3.3 Alloying-type Anode Materials Based on 3D GBMs -- 3.4 Summary and Outlook -- References. |
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Chapter 4 3D Graphene-based Materials for Enhancing the Energy Density of Sodium Ion Batteries -- 4.1 Introduction -- 4.2 Sodium Ion Batteries and their Ion Storage Mechanism -- 4.2.1 Operating Principle -- 4.2.2 Battery Performance Against Reaction Mechanics -- 4.2.3 Advantages of Nanostructured Materials on Ion Exchange Mechanisms -- 4.2.4 Graphitic Materials for Electrode Design -- 4.2.5 Advantages of the 3D Graphene Nanostructure -- 4.3 Synthesis of 3D Graphene-based Electrodes -- 4.3.1 Template-assisted Method -- 4.3.2 Self-assembly Methods -- 4.3.3 Emerging Novel Methods |
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4.4 Applications of 3D Graphene Materials in SIBs -- 4.4.1 Application as Anodes -- 4.4.2 Application as Cathodes -- 4.5 Conclusions and Future Perspectives -- References -- Chapter 5 Ultrafast Charging Supercapacitors Based on 3D Macrostructures of Graphene and Graphene Oxide -- 5.1 Introduction -- 5.2 Graphene for Double Layer and Pseudocapacitive Type Devices -- 5.2.1 Combining or Substituting AC with Graphene -- 5.2.2 Graphene Foams -- 5.2.3 Graphene Papers and 3D Films -- 5.2.4 Graphene-based Fibres for Supercapacitors -- 5.3 Recent Advances in GBM for LICs |
Note |
5.3.1 Graphene-based Cathode Materials for LICs. |
Summary |
This book provides a critical and comprehensive account of the recent advances in the development of 3D GBMs for tackling global energy and environmental issues. |
Local Note |
eBooks on EBSCOhost EBSCO eBook Subscription Academic Collection - North America |
Subject |
Clean energy -- Technological innovations.
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Clean energy. |
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Technological innovations. |
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Green technology.
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Green technology. |
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Graphene -- Environmental aspects.
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Graphene. |
Added Author |
Balasubramanian, Rajasekhar.
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Chowdhury, Shamik.
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Other Form: |
Print version: Balasubramanian, Rajasekhar Graphene-based 3D Macrostructures for Clean Energy and Environmental Applications Cambridge : Royal Society of Chemistry,c2021 9781839160011 |
ISBN |
1839163445 |
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9781839163449 (electronic book) |
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9781839162480 (PDF ebook) |
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1839162481 |
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9781839160011 (hardback) |
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