Magnetic Nano- and Microwires
Design, Synthesis, Properties and Applications
- 3rd Edition - March 1, 2026
- Latest edition
- Editor: Manuel Vázquez
- Language: English
- Paperback ISBN:9 7 8 - 0 - 4 4 3 - 3 6 5 3 4 - 8
- eBook ISBN:9 7 8 - 0 - 4 4 3 - 3 6 5 3 5 - 5
Magnetic Nano- and Microwires: Design, Synthesis, Properties and Applications, Third Edition presents the state of the art in research on the curvature of magnetic nanost… Read more
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Magnetic Nano- and Microwires: Design, Synthesis, Properties and Applications, Third Edition presents the state of the art in research on the curvature of magnetic nanostructures, a topic where observed novel phenomena form the basis of a number of many new applications. Part I explores advanced designs and techniques for the synthesis, growth, and processing of cylindrical magnetic nanowires, nanotubes, and their arrays, as well as of nanowire heterostructures. Methods such as electrodeposition, atomic layer deposition, focused-electron/ion-beam-induced deposition, epitaxial growth by chemical vapor transport or ultrarapid solidification are covered. The engineering of anodic membranes as templates for electrochemical patterning and of modulations of nanowires is also discussed. Part II addresses the magnetization processes and derived properties of curved magnetic nanostructures. This includes arrays of cylindrical nanowires, and in particular also considers individual nanowires where the effects of curvature together with compositional and diameter modulations are observed. Helical and exotic vortex-transverse complex domain configurations and skyrmion tubes are investigated together with Bloch point domain walls and complex rotational mechanisms involved in the remagnetization processes, in addition to magnetotransport properties and the action of electrical current pulses. Part III focusses on emerging applications of nano- and microwires. It reviews applications where nanowire arrays are used or proposed, including magnetocaloric, thermoelectric for spin caloritronics and thermopower, magnetostrictive sensors and transducers, and biomedical and oncological applications such as robotics and swimmers. A number of devices that makes use of magnetic microwires as sensing elements are also discussed, incluidng advanced flux-gate field sensors, microwave and electromagnetic shielding devices, and tunable magnetic hybrid composites.
- Explains the curvature effects on magnetic nanostructures, for example the novel phenomena induced by curvature in cylindrical nanowires
- Covers helical, vortex, and axial domains and domain wall dynamics
- Investigates key technological applications such as biomagnetics and magnetic sensors
Academics and researchers in the fields of physics of magnetism and magnetic materials, materials science, and electrical engineering
Part I: Design and Synthesis of Novel Nano-Microwires
1. 3D Nanostructure Grown by FEBID
2. Two-Photon Lithography to Grow Magnetic Nanowires, with Cross-Sectional and Longitudinal Curvature
3. Magnetic Nanopillar Arrays grown by Glancing Angle Sputtering
4. Heusler Alloy Nanowires: Synthesis, Properties and Applications
5. Submicron Wires prepared by the Quenching and Drawing Technique
6. Processing of Microwires for Advanced Giant Magnetoimpedance and Magnetic Softness
7. Melt-Extracted Magnetocaloric Microwires for Energy-Efficient Magnetic Refrigeration
Part II: Remagnetization, Domains & Domain Walls
8. Effects of Curvature in 3D Magnetic Nanostructures
9. 3D Chiral Magnetic Structures
10. Micromagnetism and Magnetoelectricity of Curvilinear Wire-Like Geometries
11. Curvature Effects in 3D Magnetic Nanohelices
12. Thermal Conductivity in Magnetic Nanowires
13. Transient Skyrmion Tubes and Emergent Electrodynamics in Ferromagnetic Nanowires
14. Domain Wall Propagation in Cylindrical Nanowires
15. Spin Texture and Magnetisation Dynamics in Cylindrical Nanowires with Local Compositional Modulations
16. Domain Wall Pinning in Periodically FM/Metal Composition-Modulated Co-Based Cylindrical Nanowires
17. Scanning Nitrogen-Vacancy Center Magnetometry for Non-Perturbative and Ultra-Scaled Magnetic Imaging
18. Amorphous Microwires Investigated by MOKE
19. Low Curie Temperature Amorphous Microwires: Magnetization Reversal and Magnetoimpedance Near Tc
20. Modelling of Domain Wall Dynamics in Cylindrical Nanowires
21. Domain Walls Dynamics in Curved Nanowires
22. Magnonics in Cylindrical Geometry
Part III: Technological Applications
23. Magneto-Thermoelectric Effects in Magnetic Nanowire Networks
24. Controlling Heat Generation from Magnetic Nanoparticles using Geometry and Material
25. Magnetic Nanowires in Small-Scale Robotics
26. The Role of Nanowires in Next-Generation Antimicrobial Materials
27. Active Live Cell Rheometry using Magnetic Microwires
28. Contactless Sensing using Magnetically Bistable Microwires
29. Principles and Characteristics of GSR Sensors with Microwires
30. Scattering of Electromagnetic Waves by Amorphous Magnetic Microwires
31. Ferromagnetic Microwires Enabled Multifunctional Composites: Latest Progress
1. 3D Nanostructure Grown by FEBID
2. Two-Photon Lithography to Grow Magnetic Nanowires, with Cross-Sectional and Longitudinal Curvature
3. Magnetic Nanopillar Arrays grown by Glancing Angle Sputtering
4. Heusler Alloy Nanowires: Synthesis, Properties and Applications
5. Submicron Wires prepared by the Quenching and Drawing Technique
6. Processing of Microwires for Advanced Giant Magnetoimpedance and Magnetic Softness
7. Melt-Extracted Magnetocaloric Microwires for Energy-Efficient Magnetic Refrigeration
Part II: Remagnetization, Domains & Domain Walls
8. Effects of Curvature in 3D Magnetic Nanostructures
9. 3D Chiral Magnetic Structures
10. Micromagnetism and Magnetoelectricity of Curvilinear Wire-Like Geometries
11. Curvature Effects in 3D Magnetic Nanohelices
12. Thermal Conductivity in Magnetic Nanowires
13. Transient Skyrmion Tubes and Emergent Electrodynamics in Ferromagnetic Nanowires
14. Domain Wall Propagation in Cylindrical Nanowires
15. Spin Texture and Magnetisation Dynamics in Cylindrical Nanowires with Local Compositional Modulations
16. Domain Wall Pinning in Periodically FM/Metal Composition-Modulated Co-Based Cylindrical Nanowires
17. Scanning Nitrogen-Vacancy Center Magnetometry for Non-Perturbative and Ultra-Scaled Magnetic Imaging
18. Amorphous Microwires Investigated by MOKE
19. Low Curie Temperature Amorphous Microwires: Magnetization Reversal and Magnetoimpedance Near Tc
20. Modelling of Domain Wall Dynamics in Cylindrical Nanowires
21. Domain Walls Dynamics in Curved Nanowires
22. Magnonics in Cylindrical Geometry
Part III: Technological Applications
23. Magneto-Thermoelectric Effects in Magnetic Nanowire Networks
24. Controlling Heat Generation from Magnetic Nanoparticles using Geometry and Material
25. Magnetic Nanowires in Small-Scale Robotics
26. The Role of Nanowires in Next-Generation Antimicrobial Materials
27. Active Live Cell Rheometry using Magnetic Microwires
28. Contactless Sensing using Magnetically Bistable Microwires
29. Principles and Characteristics of GSR Sensors with Microwires
30. Scattering of Electromagnetic Waves by Amorphous Magnetic Microwires
31. Ferromagnetic Microwires Enabled Multifunctional Composites: Latest Progress
- Edition: 3
- Latest edition
- Published: March 1, 2026
- Language: English
MV
Manuel Vázquez
Manuel Vázquez is Professor of Research of the Spanish National Research Council with over 40 years of expertise in magnetism and magnetic materials. Previously he was the Head of Laboratory at the Institute of Applied Magnetism, Madrid (1992–2000), he set up the Group on Nanomagnetism and Magnetization Processes at the Institute of Materials Sciences of Madrid (from 2001), and he was the Manager of the Strategic Action on Nanoscience and Nanotechnology of the Spanish Ministry of Science and Education from 2004–2009.
Affiliations and expertise
Professor of Research of the Spanish National Research Council, CSIC, Spain