Magnetic Nanomaterials: Fundamentals, Synthesis and Applications

Timely and comprehensive, this book presents recent advances in magnetic nanomaterials research, covering the latest developments, including the design and preparation of magnetic nanoparticles, their physical and chemical properties as well as their applications in different fields, including biomedicine, magnetic energy storage, wave–absorbing and water remediation. By allowing researchers to get to the forefront developments related to magnetic nanomaterials in various disciplines, this is invaluable reading for the nano, magnetic, energy, medical, and environmental communities. INDICE: List of Contributors xvii .Preface xxiii .Part One Fundamentals 1 .1 Overview of Magnetic Nanomaterials 3Ziyu Yang, Shuang Qiao, Shouheng Sun, and Yanglong Hou .1.1 Introduction 3 .1.2 Typical Characterization of Magnetic Nanomaterials 14 .1.3 Conclusions 22 .References 22 .2 Magnetism of Nanomaterials 29Ralph Skomski, Balamurugan Balasubramanian, and David J. Sellmyer .2.1 Introduction 29 .2.2 Nanomagnetic Phenomena of Atomic Origin 48 .2.3 Micromagnetics 52 .2.4 Spin–Dependent Transport 64 .Appendices 71 .Appendix 2.A: Functional Derivatives and Materials Equations 71 .Appendix 2.B: Relativistic Physics 72 .Appendix 2.C: Unit Conversion in Magnetism 74 .Acknowledgments 74 .References 74 .Part Two Synthesis 81 .3 Overview of Synthesis of Magnetic Nanomaterials 83Xin Chu and Yanglong Hou .3.1 Introduction 83 .3.2 General Synthesis Mechanism of Magnetic Nanoparticles 85 .3.3 Typical Methods and Equipment of Magnetic Nanomaterials Synthetic Techniques: Chemical Approaches 85 .3.4 Typical Methods and Equipment of Magnetic Nanomaterials Synthetic Techniques: Physical Approaches 104 .3.5 Conclusions and Perspectives 113 .References 114 .4 Synthesis of Soft Magnetic Nanomaterials and Alloys 121Song Lan and Matthew A. Willard .4.1 Introduction 121 .4.2 Nanoparticles 123 .4.3 Nanorods 127 .4.4 Thin Films 134 .4.5 Ribbons 136 .4.6 Conclusions 140 .References 141 .5 Synthesis of Nanostructured Rare–Earth Permanent Magnets 147Ming Yue and George C. Hadjipanayis .5.1 Introduction 147 .5.2 RCox–Based (R = Sm, Pr, Y, La) Nanostructured Magnets 155 .5.3 R2Fe14B–Based (R = Pr, Nd, Tb, Dy) Magnets 161 .5.4 Conclusions and Perspectives 166 .References 166 .6 Synthesis of Rare Earth Free Permanent Magnets 175Shenqiang Ren and Jinbo Yang .6.1 Introduction 175 .6.2 Tetragonal L10 FeCo 175 .6.3 MnBi Low–Temperature Phase 179 .6.4 Conclusions and Perspective 186 .Acknowledgment 187 .References 187 .7 Synthesis and Properties of Magnetic Chalcogenide Nanostructures 191Karthik Ramasamy, Soubantika Palchoudhury, and Arunava Gupta .7.1 Introduction 191 .7.2 Synthesis Methods of Binary Magnetic Chalcogenide .7.3 Synthesis Methods of Ternary and Higher Order Magnetic .Chalcogenides Nanostructures 201 .7.4 Structural and Magnetic Characterizations of Magnetic Chalcogenide Nanostructures 206 .7.5 Potential Applications of Magnetic Chalcogenide Nanostructures 208 .7.6 Conclusions and Perspectives 211 .Acknowledgments 212 .References 212 .8 Magnetic Multicomponent Heterostructured Nanocrystals 217P. Davide Cozzoli, Concetta Nobile, Riccardo Scar ello, Angela Fiore, and Luigi Carbone .8.1 Introduction 217 .8.2 Synthesis of Heterostructured Nanocrystals: Basic Concepts and Guiding Criteria 219 .8.3 Heterostructures with Core/Shell Geometries 223 .8.4 Nanohetero–Oligomer Architectures 245 .8.5 Conclusions 266 Acknowledgment 267 References 267 .9 Wet–Phase Synthesis of Typical Magnetic Nanoparticles with Controlled Morphologies 291Jiajia Liu, Jia Liu, Meng Xu, and Jiatao Zhang .9.1 Introduction 291 .9.2 Synthesis of Hollow/Porous Magnetic Nanoparticles 303 .9.3 Conclusions and Perspectives 317 .Acknowledgment 317 .References 317 .10 Self–Assembly of Co Nanocrystals Self–Assembled in 2D and 3D Superlattices: Chemical and Physical Speci c Properties 327 Marie–Paule Pileni .10.1 Introduction 327 .10.2 Control of Crystalline Structure of Nanoparticles (Nanocrystallinity) and the Nanocrystal Size 328 .10.3 Nano–Kirkendall Effect on Co Nanocrystals: In uence of Size and Nanocrystallinity [51 54] 329 .10.4 3D Self–Assemblies of Magnetic Supracrystals: Various Structures and Speci c Behaviors 331 .10.5 3D Self–Assemblies of Magnetic Supracrystals: Physical Properties 333 .10.6 Conclusions 337 .Acknowledgment 338 .References 338 .Part Three Applications 343 .11 Magnetic Nanoparticles for Bioseparation, Biosensing, and Regenerative Medicine 345Yiyuan Han, Min Wang, and Chenjie Xu .11.1 Introduction 345 .11.2 Synthesis and Modi cation of High–Moment Magnetic Nanoparticles 346 .11.3 Magnetic Nanomaterials for Bioseparation 347 .11.4 Magnetic Nanoparticles for Magnetic Biosensing 354 .11.5 Magnetic Nanoparticles for Regenerative Medicine 358 .11.6 Challenges and Perspectives 360 .References 360 .12 Magnetic Nanomaterials for Diagnostics 365Zijian Zhou and Xiaoyuan Chen .12.1 Introduction 365 .12.2 Biocompatibility of Magnetic Nanoparticles 366 .12.3 Surface Functionalization of Magnetic Nanomaterials 368 .12.4 Magnetic Resonance Imaging (MRI) 372 .12.5 Magnetoacoustic Tomography (MAT) 378 .12.6 Magnetic Particle Imaging (MPI) 381 .12.7 Multimodality Imaging 384 .12.8 Conclusions and Perspectives 386 .References 387 .13 Magnetic Nanomaterials for Therapy 393Daishun Ling and Taeghwan Hyeon .13.1 Introduction 393 .13.2 Imaging–Guided Therapy Using Magnetic Nanomaterials 393 .13.3 Magnetic Hyperthermia 407 .13.4 Targeted Gene Delivery 419 .13.5 Manipulation of Cellular Functions 425 .13.6 Conclusions and Perspectives 429 .Acknowledgments 431 .References 431 .14 Magnetic Nanomaterials for Data Storage 439Jung–Wei Liao, Hong–Wei Zhang, and Chih–Huang Lai .14.1 Introduction: Magnetic Data Storage and its Requirements on Magnetic Nanomaterials 439 .14.2 Nanostructured Magnetic Thin Films for Data Storage: Overview of Perpendicular Recording (PMR) Media 442 .14.3 Nanostructured Magnetic Thin Films for Data Storage: Overview of FePt Media for Heat–Assisted Magnetic Recording (HAMR) 446 .14.4 Monodisperse Magnetic Nanoparticles: Synthesis, Phase Transition, Orientation Control, and Nanocomposites 450 .14.5 Patterned Magnetic Nanostructures for Bit Patterned Media Through Bottom–Up Approach: Self–Assembly and Guided Assembly of Block Copolymer 454 .14.6 Patterned Magnetic Nanostructures for Bit Patterned Media Through Top–Down Approach: Lithograph 462 .14.7 Conclusions and Perspectives 465 .References 467 .15 Magnetic Nanomaterials for Electromagnetic Wave Absorption 473Ling Bing Kong, Lie Liu, Zhihong Yang, Sean Li, and Tianshu Zhang .15.1 Introduction 473 .15.2 Magnetic Nanosized Powders and Composites 474 .15.3 Nanosized Carbon Materials with Magnetic Components 506 .15.4 Concluding Remarks 509 .References 510 .16 Magnetic Nanomaterials for Water Remediation 515Peirui Liu and Yu Hong .16.1 Introduction 515 .16.2 Magnetic Nanomaterials for Adsorption and Removal of Pollutants in Water 516 .16.3 Magnetic Nanomaterials for Catalytic Degradation of Wastewater 525 .16.4 Magnetic Nanomaterials for Wastewater Resources Recovery 529 .16.5 Magnetic Nanomaterials for Monitoring and Analysis Technologies 530 .16.6 Conclusion and Perspectives 534 .Acknowledgment 535 .References 535 .Index 547

• ISBN: 978-3-527-34134-4
• Editorial: Wiley VCH
• Encuadernacion: Cartoné
• Páginas: 600
• Fecha Publicación: 02/08/2017
• Nº Volúmenes: 1
• Idioma: Inglés