Microwaves in Nanoparticle Synthesis: Fundamentals and Applications

For the first time, this comprehensive handbook presents the emerging field of microwave technology for the synthesis of nanoparticles. Divided into three parts––fundamentals, methods, and applications––it covers topics including microwave theory, scale–up, microwave plasma synthesis, characterization, and more. This offers both an important volume for academic researchers, and a resource for those in industry exploring the applications of nanoparticles in semiconductors, electronics, catalysis, sensors, and more. INDICE: Preface XI List of Contributors XIII 1 Introduction to Nanoparticles 1 Satoshi Horikoshi and Nick Serpone 1.1 General Introduction to Nanoparticles 1 1.2 Methods of Nanoparticle Synthesis 8 1.3 Surface Plasmon Resonance and Coloring 10 1.4 Control of Size, Shape, and Structure 12 1.4.1 Size Control of Nanoparticles 12 1.5 Reducing Agent in Nanoparticle Synthesis 18 1.6 Applications of Metallic Nanoparticles 19 References 23 2 General Features of Microwave Chemistry 25 Satoshi Horikoshi and Nick Serpone 2.1 Microwave Heating 25 2.2 Some Applications of Microwave Heating 26 2.3 Microwave Chemistry 29 2.4 Microwave Chemical Reaction Equipment 33 References 36 3 Considerations of Microwave Heating 39 Satoshi Horikoshi and Nick Serpone 3.1 General Considerations of Microwave Heating 39 3.2 Peculiar Microwave Heating 47 3.3 Relevant Points of Effective Microwave Heating 52 References 53 4 Combined Energy Sources in the Synthesis of Nanomaterials 55 Luisa Boffa, Silvia Tagliapietra, and Giancarlo Cravotto 4.1 Introduction 55 4.2 Simultaneous Ultrasound/Microwave Treatments 58 4.3 Sequential Ultrasound and Microwaves 63 4.4 Conclusions 72 References 72 5 Nanoparticle Synthesis through Microwave Heating 75 Satoshi Horikoshi and Nick Serpone 5.1 Introduction 75 5.2 Microwave Frequency Effects 76 5.3 Nanoparticle Synthesis under a Microwave Magnetic Field 81 5.4 Synthesis of Metal Nanoparticles by a Greener Microwave Hydrothermal Method 84 5.5 Nanoparticle Synthesis with Microwaves under Cooling Conditions 85 5.6 Positive Aspects of Microwaves’ Thermal Distribution in Nanoparticle Synthesis 87 5.7 Microwave–Assisted Nanoparticle Synthesis in Continuous Flow Apparatuses 90 References 103 6 Microwave–Assisted Solution Synthesis of Nanomaterials 107 Xianluo Hu and Jimmy C. Yu 6.1 Introduction 107 6.2 Synthesis of ZnO Nanocrystals 110 6.3 Synthesis of α–Fe2O3 Nanostructures 114 6.4 Element–Based Nanostructures and Nanocomposite 118 6.5 Chalcogenide Nanostructures 125 6.6 Graphene 132 6.7 Summary 135 References 135 7 Precisely Controlled Synthesis of Metal Nanoparticles under Microwave Irradiation 145 Zhi Chen, Dai Mochizuki, and Yuji Wada 7.1 Introduction 145 7.2 Precise Control of Single Component under Microwave Irradiation 152 7.3 Precise Control of Multicomponent Structures under Microwave Irradiation 164 7.4 An Example of Mass Production Oriented to Application 178 7.5 Conclusion 180 References 180 8 Microwave–Assisted Nonaqueous Routes to Metal Oxide Nanoparticles and Nanostructures 185 Markus Niederberger 8.1 Introduction 185 8.2 Nonaqueous Sol–Gel Chemistry 186 8.3 Polyol Route 189 8.4 Benzyl Alcohol Route 191 8.5 Other Mono–Alcohols 197 8.6 Ionic Liquids 198 8.7 Nonaqueous Microwave Chemistry beyond Metal Oxides 199 8.8 Summary and Outlook 201 References 202 9 Input of Microwaves for Nanocrystal Synthesis and Surface Functionalization Focus on Iron Oxide Nanoparticles 207 Irena Milosevic, Erwann Guenin, Yoann Lalatonne, Farah Benyettou, Caroline de Montferrand, Frederic Geinguenaud, and Laurence Motte 9.1 Introduction 207 9.2 Biomedical Applications of Iron Oxide Nanoparticles 208 9.3 Nanoparticle Synthesis 211 9.4 Nanoparticle Surface Functionalization 214 9.5 Microwave–Assisted Chemistry 222 9.6 Conclusions 236 References 236 10 Microwave–Assisted Continuous Synthesis of Inorganic Nanomaterials 247 Naftali N. Opembe, Hui Huang, and Steven L. Suib 10.1 Introduction and Overview 247 10.2 Microwave–Assisted Continuous Synthesis of Inorganic Nanomaterials 249 10.3 Types of Microwave Apparatus Used in Continuous Synthesis 250 10.4 Microwave Continuous Synthesis of Molecular Sieve Materials 253 10.5 Microwave Continuous Synthesis of Metal Oxides and Mixed Metal Oxide Materials 259 10.6 Microwave Continuous Synthesis of Metallic Nanomaterials 267 10.7 Conclusions and Outlook 268 References 269 11 Microwave Plasma Synthesis of Nanoparticles: From Theoretical Background and Experimental Realization to Nanoparticles with Special Properties 271 Dorothée Vinga Szabó 11.1 Introduction 271 11.2 Using Microwave Plasmas for Nanoparticle Synthesis 272 11.3 Experimental Realization of the Microwave Plasma Synthesis 279 11.4 Influence of Experimental Parameters 282 11.5 Nanoparticle Properties and Application 294 11.6 Summary 300 References 301 12 Oxidation, Purification and Functionalization of Carbon Nanotubes under Microwave Irradiation 311 Davide Garella and Giancarlo Cravotto 12.1 Introduction 311 12.2 Oxidation and Purification 313 12.3 Functionalization 316 12.4 Conclusion 321 References 321 Index 325

• ISBN: 978-3-527-33197-0
• Editorial: Wiley VCH
• Encuadernacion: Cartoné
• Páginas: 352
• Fecha Publicación: 23/04/2013
• Nº Volúmenes: 1
• Idioma: Inglés