Handbook of Magnetic Hybrid Nanoalloys and their Nanocomposites
portes grátis
Handbook of Magnetic Hybrid Nanoalloys and their Nanocomposites
Thomas, Sabu; Rezazadeh Nochehdehi, Amirsadegh
Springer Nature Switzerland AG
10/2022
1274
Dura
Inglês
9783030909475
15 a 20 dias
Descrição não disponível.
Part I: Theory, Modeling and Synthesis. Chapter 1: Introduction to nanotechnology and nano-alloys.- Chapter 2: Introduction to nanomedicine; nanotechnology in medicine.- Chapter 3: Introduction to magnetic materials and their properties.- Chapter 4: Iron and iron oxide magnetic nanoparticles (IOMNs).- Chapter 5: Synthesis of cobalt and its metallic magnetic nanoparticles (CMNs & CBMNs).- Chapter 6: Synthesis of iron-based magnetic nanocomposites (IBMNs).- Chapter 7: Synthesis of cobalt-based magnetic nanocomposites (CMNs & CBMNs).- Chapter 8: Synthesis of iron-cobalt nanoalloys (ICNAs) and their metallic composites.- Chapter 9: Synthesis of core-shell magnetic nanoparticles (CS-MNs).- Chapter 10: Synthesis of magnetoelectric multiferroic materials and their composites.- Chapter 11: Synthesis of magnetic carbon nanotubes and their composites.- Chapter 12: Manufacturing techniques of magnetic polymer nanocomposites.- Chapter 13: Vacuum based deposition techniques to synthesize magnetoelectric multiferroic materials.- Chapter 14: Theory, modeling, and simulation of magnetic hybrid nanoalloys.- Part II: Characterization techniques and applications. Chapter 15: Microscopy techniques.- Chapter 16: X-ray scattering techniques (XST).- Chapter 17: Neutron scattering techniques (NST).- Chapter 18: Light scattering techniques (LST).- Chapter 19: Vibrating sample magnetometry (VSM).- Chapter 20: Spectroscopic techniques.- Chapter 21: Rheological characterization.- Chapter 22: XPS, SIMS, and nanoSIMS.- Chapter 23: Thermal analysis.- Chapter 24: Contact angle studies.- Chapter 25: Electrical and dielectric characterization.- Chapter 26: Ageing studies.- Chapter 27: Diffusion and transport studies.- Chapter 28: Biological characterization.- Chapter 29: Industrial applications of magnetic alloy nanoparticles and their polymer nanocomposites.- Chapter 30: Agricultural applications of magnetic alloy nanoparticles and their polymer nanocomposites.- Chapter 31: Environmental applications of magnetic alloy nanoparticles and their polymer nanocomposites.- Chapter 32: Medicinal and biological application of magnetic alloy nanoparticles and their polymer nanocomposites.- Chapter 33: Life cycle analysis of specified magnetic alloy nanoparticles.
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MHNAs;magnetic nanoalloys;magnetic hybrid nanoalloys;perovskite nanomaterials;magnetic alloy nanoparticles;carbon nanotubes
Part I: Theory, Modeling and Synthesis. Chapter 1: Introduction to nanotechnology and nano-alloys.- Chapter 2: Introduction to nanomedicine; nanotechnology in medicine.- Chapter 3: Introduction to magnetic materials and their properties.- Chapter 4: Iron and iron oxide magnetic nanoparticles (IOMNs).- Chapter 5: Synthesis of cobalt and its metallic magnetic nanoparticles (CMNs & CBMNs).- Chapter 6: Synthesis of iron-based magnetic nanocomposites (IBMNs).- Chapter 7: Synthesis of cobalt-based magnetic nanocomposites (CMNs & CBMNs).- Chapter 8: Synthesis of iron-cobalt nanoalloys (ICNAs) and their metallic composites.- Chapter 9: Synthesis of core-shell magnetic nanoparticles (CS-MNs).- Chapter 10: Synthesis of magnetoelectric multiferroic materials and their composites.- Chapter 11: Synthesis of magnetic carbon nanotubes and their composites.- Chapter 12: Manufacturing techniques of magnetic polymer nanocomposites.- Chapter 13: Vacuum based deposition techniques to synthesize magnetoelectric multiferroic materials.- Chapter 14: Theory, modeling, and simulation of magnetic hybrid nanoalloys.- Part II: Characterization techniques and applications. Chapter 15: Microscopy techniques.- Chapter 16: X-ray scattering techniques (XST).- Chapter 17: Neutron scattering techniques (NST).- Chapter 18: Light scattering techniques (LST).- Chapter 19: Vibrating sample magnetometry (VSM).- Chapter 20: Spectroscopic techniques.- Chapter 21: Rheological characterization.- Chapter 22: XPS, SIMS, and nanoSIMS.- Chapter 23: Thermal analysis.- Chapter 24: Contact angle studies.- Chapter 25: Electrical and dielectric characterization.- Chapter 26: Ageing studies.- Chapter 27: Diffusion and transport studies.- Chapter 28: Biological characterization.- Chapter 29: Industrial applications of magnetic alloy nanoparticles and their polymer nanocomposites.- Chapter 30: Agricultural applications of magnetic alloy nanoparticles and their polymer nanocomposites.- Chapter 31: Environmental applications of magnetic alloy nanoparticles and their polymer nanocomposites.- Chapter 32: Medicinal and biological application of magnetic alloy nanoparticles and their polymer nanocomposites.- Chapter 33: Life cycle analysis of specified magnetic alloy nanoparticles.
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