Buch, Englisch, 600 Seiten, Format (B × H): 165 mm x 240 mm, Gewicht: 960 g
Buch, Englisch, 600 Seiten, Format (B × H): 165 mm x 240 mm, Gewicht: 960 g
ISBN: 978-1-118-38509-8
Verlag: John Wiley & Sons
This book covers all aspects of the different classes of nanomaterials – from synthesis to application. It investigates in detail the use and feasibility of developing nanocomposites with these nanomaterials as reinforcements. The book encompasses synthesis and properties of cellulose nanofibers, bacterial nanocellulose, carbon nanotubes / nanofibers, graphene, nanodiamonds, nanoclays, inorganic nanomaterials and their nanocomposites for high-end applications such as electronic devices, energy storage, structural and packaging. The book also provides insight into various modification techniques for improving the functionality of nanomaterials apart from their compatibility with the base matrix.
Autoren/Hrsg.
Weitere Infos & Material
Part I: Nanomaterials
1 Cellulose Nanofibers: Synthesis, Properties and Applications 3
Mahuya Das and Rupa Bhattacharyya
1.1 Introduction 3
1.2 Synthesis of Cellulose Nanofibers 4
1.3 Properties of Cellulose Nanofibers 14
1.4 Applications of Nanocellulose Fibers 28
1.5 Conclusion 32
References 33
2 Bacterial Nanocellulose: Synthesis, Properties and Applications 39
M.L. Foresti, P. Cerrutti and A. Vazquez
2.1 Introduction 39
2.2 Bacterial Nanocellulose Synthesis 41
2.3 Bacterial Nanocellulose Properties 49
2.4 Bacterial Nanocellulose Applications 52
2.5 Conclusions 57
References 58
3 Carbon Nanofibers: Synthesis, Properties and Applications 63
Tanmoy Rath
3.1 Introduction 63
3.2 Carbon Nanofiber Structure and Defects 65
3.3 Synthesis 67
3.4 Growth Mechanism of CNFs 77
3.5 Properties 78
3.6 Applications 82
3.7 Conclusion 84
References 85
4 Carbon Nanotubes: Synthesis, Properties and Applications 89
Raghunandan Sharma Poonam Benjwal and Kamal K. Kar
4.1 Introduction 89
4.2 Carbon Nanostructures 91
4.3 Structure: Chirality 97
4.4 Synthesis 99
4.5 Characterizations 103
4.6 Properties 108
4.7 Applications 112
4.8 Conclusions 131
Acknowledgement 132
References 132
5 Graphene: Synthesis, Properties and Application 139
Subash Chandra Sahu, Aneeya K. Samantara, Jagdeep Mohanta, Bikash Kumar Jena and Satyabrata Si
5.1 Introduction 140
5.2 History of Graphene 142
5.3 Natural Occurrence 143
5.4 Carbon Allotropes 144
5.5 Molecular Structure and Chemistry of Graphene 147
5.6 Properties of Graphene 147
5.7 Synthesis of Graphene 153
5.8 Biomedical Application of Graphene 155
5.9 Graphene in Energy 166
5.10 Graphene in Electronics 174
5.11 Graphene in Catalysis 177
5.12 Graphene Composites 177
5.13 Conclusion and Perspective 179
Acknowledgement 180
References 181
6 Nanoclays: Synthesis, Properties and Applications 195
Biswabandita Kar and Dibyaranjan Rout
6.1 Introduction 195
6.2 Structure and Properties of Nanoclays 196Contents ix
6.3 Synthesis of Polymer-Clay Nanocomposites 203
6.4 Applications of Nanoclays 206
6.5 Conclusion 211
References 212
7 Applications for Nanocellulose in Polyolefins-Based Composites 215
Alcides Lopes Leao, Bibin Mathew Cherian, Suresh Narine, Mohini Sain, Sivoney Souza and Sabu Thomas
7.1 Introduction 215
7.2 Flexural Strength 224
References 227
8 Recent Progress in Nanocomposites Based on Carbon Nanomaterials and Electronically Conducting Polymers 229
Jayesh Cherusseri and Kamal K. Kar
8.1 Introduction 230
8.2 Electronically Conducting Polymers 230
8.3 Carbon Nanomaterials 233
8.4 Why Nanocomposites? 235
8.5 Electronically Conducting Polymer/Fullerene Nanocomposites 236
8.6 Electronically Conducting Polymer/Carbon Nanofiber Nanocomposites 240
8.7 Electronically Conducting Polymer/Carbon Nanotube Nanocomposites 243
8.8 Electronically Conducting Polymer/Graphene Nanocomposites 246
8.9 Applications 249
8.10 Conclusions 252
Acknowledgement 253
References 253
Part II: Nanocomposites Based on Inorganic Nanoparticles
9 Nanocomposites Based on Inorganic Nanoparticles 259
M. Balasubramanian, and P. Jawahar
9.1 Introduction 260
9.2 Processing of Clay-Polymer Nanocomposites (CPN) 273
9.3 Particulate-Polymer Nanocomposites Processing 283
9.4 Characterization of Polymer Nanocomposites 292
9.5 Properties of Polymer Nanocomposites 301
9.6 Application of Nanocomposites 336
References 342xii Contents
10 Polymer Nanocomposites Reinforced with Functionalized Carbon Nanomaterials: Nanodiamonds, Carbon Nanotubes and Graphene 347
F. Navarro-Pardo, A.L. Martínez-Hernández and C. Velasco-Santos
10.1 Introduction 348
10.2 Synthesis of Carbon Nanomaterials 349
10.3 Functionalization 351
10.4 Methods of Nanocomposite Preparation 358
10.5 Properties 360
10.6 Concluding Remarks 386
References 386
Part III: Green Nanocomposites
11 Green Nanocomposites from Renewable Resource-Based Biodegradable Polymers and Environmentally Friendly Blends 403
P. J. Jandas, S. Mohanty and S. K. Nayak
11.1 Introduction 404
11.2 Organically Modified Layered Silicates Reinforced Biodegradable Nanocomposites: New Era of Polymer Composites 407
11.3 Environmentally Friendly Polymer Blends from Renewable Resources 425
11.4 Applications and Prototype Development 436
11.5 Future Perspectives 436
11.6 Conclusion 437
References 438
Part IV: Applications of Polymer Nanocomposites
12 Nanocomposites for Device Applications 445
Sreevalsa VG
12.1 Introduction 446
12.2 Nonvolatile Memory Devices 447
12.3 Fabrication of Nonvolatile Memory Devices Utilizing Graphene Materials Embedded in a Polymer Matrix 451
12.4 Electric-Field-Induced Resistive Switching 452
12.5 Nanocomposite Solar Cells 455
12.6 Thin-Film Capacitors for Computer Chips 457
12.7 Solid Polymer Electrolyes for Batteries 457
12.8 Automotive Engine Parts and Fuel Tanks 458
12.9 Oxygen and Gas Barriers 459
12.10 Printing Technologies 459
12.11 Capacitors 461
12.12 Inductors 461
12.13 Optical Waveguides 462
12.14 Low-K and Low-Loss Composites 463
12.15 ZnO-Based Nanocomposites 463xiv Contents
12.16 Functional Polymer Nanocomposites 464
12.17 Plasmonics 464
12.18 Polymer Nanocomposites 465
12.19 Magnetically Active Nanocomposites 475
12.20 Nanocomposites of Nature 479
References 479
13 Polymer Nanocomposites for Energy Storage Applications 483
Sutapa Ghosh and Naresh Chilaka
13.1 Introduction 483
13.2 Energy Storage Mechanism in Supercapacitor and Batteries 485
13.3 Synthesis of Conducting Polymers 488
13.4 Characterization of Nanocomposites: Structure, Electrical, Chemical Composition and Surface Area 491
13.5 Conducting Polymer Nanocomposites for Energy Storage Application 494
13.6 Future of Graphene and Conducting Polymer Nancomposites 499
13.7 Conclusions and Future Research Initiatives 500
References 501
14 Polymer Nanocomposites for Structural Applications 505
M. Mollo and C. Bernal
14.1 Introduction 506
14.2 Nanocomposite Fibers 510
14.3 Nano-Enhanced Conventional Composites 512
14.4 Nano-Enhanced All-Polymer Composites 513
14.5 Single Polymer Nanocomposites 514
14.6 Summary, Conclusions and Future Trends 515Contents xv
References 517
15 Nanocomposites in Food Packaging 519
Mahuya Das
15.1 Introduction 519
15.2 Nanoreinforcements in Food Packaging Materials 523
15.3 Polymer Matrix for Nanocomposite 538
15.4 Recent Trends in Packaging Developed by Application of Nanocomposites 541
15.5 Application of Nanocomposites as Nanosensor for Smart/Intelligent Packaging 551
15.6 Conclusion 556
References 557
Index 573
