Defect-Induced Magnetism in Oxide Semiconductors
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Defect-Induced Magnetism in Oxide Semiconductors
Kumar, Parmod; Pal Singh, Jitendra; Kumar, Vinod
Elsevier Science Publishing Co Inc
05/2023
736
Mole
Inglês
9780323909075
15 a 20 dias
Descrição não disponível.
Section 1: Introduction to Defect-Induced Magnetism
1. An Overview of Magnetism
2. Defects versus Doping for Percolation of Magnetism
3. Induced half metallic ferromagnetism in non-magnetic oxides
4. Theoretical Aspects of Magnetism in Non-Magnetic oxides
Section 2: Growth of Non-Magnetic Oxide Nanostructures
5. Oxide Thin Films grown by Sputtering Technique
6. Oxide Thin Films grown using Spin Coating Methods
7. Advanced Deposition Tools for the Development of Oxide Thin Films
8. Chemical Methods for the growth of Oxides
9. Synthesis of metal oxide semiconductors using the evaporation technique
10. Growth of Advanced Oxide Nanostructures (Nanocubes/Nanorods/Nanoflowers)
Section 3: Post-Deposition Tools for Non-Magnetic Oxide Semiconductors
11. Role of Annealing in Oxide Semiconductors
12. Heavy ion irradiation in Non-Magnetic Oxides to Explore Magnetism
13. Ion implantation induced d0 ferromagnetism in oxide semiconductors
14. Laser and UV-Irradiation in Oxides Semiconductors
Section 4: Defects in Non-Magnetic Oxide Semiconductors
15. Electrical and Dielectric Behavior in Oxide Semiconductors
16. Raman Spectroscopy for Defects and Crystalline Disorder in Oxide Semiconductors
17. XAS Study of Defect Characterization in Oxide Semiconductors
18. X-ray photoelectron spectroscopy study of oxide semiconductors
19. X-ray Magnetic Circular Dichroism in Semiconductors
20. EPR study on defect related magnetic centers in various oxide matrices
Section 5: Examples of Defect-Induced Magnetism in Oxide Semiconductors
21. Magnetism in Titanates
22. Role of defects and doping on Magnetism in Cerium oxide
23. Magnetism of Zinc Oxide (ZnO)
24. Magnetism of Titanium Dioxide
25. Magnetism of Zirconium Dioxide (ZrO2)
26. Magnetism in disordered HfO2 nanoparticles and thin films
Section 6: Selected Applications
27. Resistive Switching Behaviour in Non-Magnetic oxides?
28. Emerging applications of metal oxides
1. An Overview of Magnetism
2. Defects versus Doping for Percolation of Magnetism
3. Induced half metallic ferromagnetism in non-magnetic oxides
4. Theoretical Aspects of Magnetism in Non-Magnetic oxides
Section 2: Growth of Non-Magnetic Oxide Nanostructures
5. Oxide Thin Films grown by Sputtering Technique
6. Oxide Thin Films grown using Spin Coating Methods
7. Advanced Deposition Tools for the Development of Oxide Thin Films
8. Chemical Methods for the growth of Oxides
9. Synthesis of metal oxide semiconductors using the evaporation technique
10. Growth of Advanced Oxide Nanostructures (Nanocubes/Nanorods/Nanoflowers)
Section 3: Post-Deposition Tools for Non-Magnetic Oxide Semiconductors
11. Role of Annealing in Oxide Semiconductors
12. Heavy ion irradiation in Non-Magnetic Oxides to Explore Magnetism
13. Ion implantation induced d0 ferromagnetism in oxide semiconductors
14. Laser and UV-Irradiation in Oxides Semiconductors
Section 4: Defects in Non-Magnetic Oxide Semiconductors
15. Electrical and Dielectric Behavior in Oxide Semiconductors
16. Raman Spectroscopy for Defects and Crystalline Disorder in Oxide Semiconductors
17. XAS Study of Defect Characterization in Oxide Semiconductors
18. X-ray photoelectron spectroscopy study of oxide semiconductors
19. X-ray Magnetic Circular Dichroism in Semiconductors
20. EPR study on defect related magnetic centers in various oxide matrices
Section 5: Examples of Defect-Induced Magnetism in Oxide Semiconductors
21. Magnetism in Titanates
22. Role of defects and doping on Magnetism in Cerium oxide
23. Magnetism of Zinc Oxide (ZnO)
24. Magnetism of Titanium Dioxide
25. Magnetism of Zirconium Dioxide (ZrO2)
26. Magnetism in disordered HfO2 nanoparticles and thin films
Section 6: Selected Applications
27. Resistive Switching Behaviour in Non-Magnetic oxides?
28. Emerging applications of metal oxides
Este título pertence ao(s) assunto(s) indicados(s). Para ver outros títulos clique no assunto desejado.
Accelerator physics; Alkali niobium; Alkaline earth metal oxides; Applied computing; Atomic layer deposition; Bandgap oxide; Biochemistry methods; Biological sciences research methodologies; Bismuth potassium titanate; Bound magnetic polaron; CVD; Chemical analysis; Chemical reaction; Chemical vapor deposition; Co-doped ZnO; Computational physics; Computer hardware; Computer science; Computer system performance; Condensed matter physics; Crystal structure; Crystalline disorder; D0 ferromagnetism; DMS; Defect; Defect-induced ferromagnetism; Defects; Deposition parameters; Dilute magnetic semiconductors; Diluted magnetic oxide; Diluted magnetic semiconductors; Doping; Double exchange interaction; Electrical engineering; Electrical materials; Electrochemistry; Electrodeposition; Electroluminescence; Electron paramagnetic resonance; Electronic energy loss; Electronics; Emergent computing; Engineering; Epitaxy; Evaporation; Exchange interactions; Ferromagnetism; Film deposition; Films (surface science); G-factor; Giant magneto-resistance; Hafnium oxide; Half metallic ferromagnetism; Hardware architecture; Hydrothermal; Instrumentation; Ion irradiation; Itinerant electron; Li-doped ZnO; Magnetic oxides; Magnetic percolation; Magnetic polaron mode; Magnetic properties; Magnetism; Materials application; Materials characterization; Materials chemistry; Materials physics; Materials processing; Materials property; Materials property type; Materials science; Materials structure; Materials synthesis; Mesoscopic physics; Metal oxides; Metal oxides semiconductor; Metal-oxide-semiconductor; Microwave synthesis; Monte Carlo simulation; Nanocubes; Nanofilms; Nanoflowers; Nanoparticles; Nanorods; Nanosheets; Nanotechnology; Nanotubes; Non-magnetic oxides; Nonmagnetic oxides; Nuclear energy loss; Operating systems; Optical properties; Oxide nanoparticles; Oxide semiconductors; Oxide thin films; Oxygen vacancy; Paramagnetic defect; Physical chemistry; Physics
Section 1: Introduction to Defect-Induced Magnetism
1. An Overview of Magnetism
2. Defects versus Doping for Percolation of Magnetism
3. Induced half metallic ferromagnetism in non-magnetic oxides
4. Theoretical Aspects of Magnetism in Non-Magnetic oxides
Section 2: Growth of Non-Magnetic Oxide Nanostructures
5. Oxide Thin Films grown by Sputtering Technique
6. Oxide Thin Films grown using Spin Coating Methods
7. Advanced Deposition Tools for the Development of Oxide Thin Films
8. Chemical Methods for the growth of Oxides
9. Synthesis of metal oxide semiconductors using the evaporation technique
10. Growth of Advanced Oxide Nanostructures (Nanocubes/Nanorods/Nanoflowers)
Section 3: Post-Deposition Tools for Non-Magnetic Oxide Semiconductors
11. Role of Annealing in Oxide Semiconductors
12. Heavy ion irradiation in Non-Magnetic Oxides to Explore Magnetism
13. Ion implantation induced d0 ferromagnetism in oxide semiconductors
14. Laser and UV-Irradiation in Oxides Semiconductors
Section 4: Defects in Non-Magnetic Oxide Semiconductors
15. Electrical and Dielectric Behavior in Oxide Semiconductors
16. Raman Spectroscopy for Defects and Crystalline Disorder in Oxide Semiconductors
17. XAS Study of Defect Characterization in Oxide Semiconductors
18. X-ray photoelectron spectroscopy study of oxide semiconductors
19. X-ray Magnetic Circular Dichroism in Semiconductors
20. EPR study on defect related magnetic centers in various oxide matrices
Section 5: Examples of Defect-Induced Magnetism in Oxide Semiconductors
21. Magnetism in Titanates
22. Role of defects and doping on Magnetism in Cerium oxide
23. Magnetism of Zinc Oxide (ZnO)
24. Magnetism of Titanium Dioxide
25. Magnetism of Zirconium Dioxide (ZrO2)
26. Magnetism in disordered HfO2 nanoparticles and thin films
Section 6: Selected Applications
27. Resistive Switching Behaviour in Non-Magnetic oxides?
28. Emerging applications of metal oxides
1. An Overview of Magnetism
2. Defects versus Doping for Percolation of Magnetism
3. Induced half metallic ferromagnetism in non-magnetic oxides
4. Theoretical Aspects of Magnetism in Non-Magnetic oxides
Section 2: Growth of Non-Magnetic Oxide Nanostructures
5. Oxide Thin Films grown by Sputtering Technique
6. Oxide Thin Films grown using Spin Coating Methods
7. Advanced Deposition Tools for the Development of Oxide Thin Films
8. Chemical Methods for the growth of Oxides
9. Synthesis of metal oxide semiconductors using the evaporation technique
10. Growth of Advanced Oxide Nanostructures (Nanocubes/Nanorods/Nanoflowers)
Section 3: Post-Deposition Tools for Non-Magnetic Oxide Semiconductors
11. Role of Annealing in Oxide Semiconductors
12. Heavy ion irradiation in Non-Magnetic Oxides to Explore Magnetism
13. Ion implantation induced d0 ferromagnetism in oxide semiconductors
14. Laser and UV-Irradiation in Oxides Semiconductors
Section 4: Defects in Non-Magnetic Oxide Semiconductors
15. Electrical and Dielectric Behavior in Oxide Semiconductors
16. Raman Spectroscopy for Defects and Crystalline Disorder in Oxide Semiconductors
17. XAS Study of Defect Characterization in Oxide Semiconductors
18. X-ray photoelectron spectroscopy study of oxide semiconductors
19. X-ray Magnetic Circular Dichroism in Semiconductors
20. EPR study on defect related magnetic centers in various oxide matrices
Section 5: Examples of Defect-Induced Magnetism in Oxide Semiconductors
21. Magnetism in Titanates
22. Role of defects and doping on Magnetism in Cerium oxide
23. Magnetism of Zinc Oxide (ZnO)
24. Magnetism of Titanium Dioxide
25. Magnetism of Zirconium Dioxide (ZrO2)
26. Magnetism in disordered HfO2 nanoparticles and thin films
Section 6: Selected Applications
27. Resistive Switching Behaviour in Non-Magnetic oxides?
28. Emerging applications of metal oxides
Este título pertence ao(s) assunto(s) indicados(s). Para ver outros títulos clique no assunto desejado.
Accelerator physics; Alkali niobium; Alkaline earth metal oxides; Applied computing; Atomic layer deposition; Bandgap oxide; Biochemistry methods; Biological sciences research methodologies; Bismuth potassium titanate; Bound magnetic polaron; CVD; Chemical analysis; Chemical reaction; Chemical vapor deposition; Co-doped ZnO; Computational physics; Computer hardware; Computer science; Computer system performance; Condensed matter physics; Crystal structure; Crystalline disorder; D0 ferromagnetism; DMS; Defect; Defect-induced ferromagnetism; Defects; Deposition parameters; Dilute magnetic semiconductors; Diluted magnetic oxide; Diluted magnetic semiconductors; Doping; Double exchange interaction; Electrical engineering; Electrical materials; Electrochemistry; Electrodeposition; Electroluminescence; Electron paramagnetic resonance; Electronic energy loss; Electronics; Emergent computing; Engineering; Epitaxy; Evaporation; Exchange interactions; Ferromagnetism; Film deposition; Films (surface science); G-factor; Giant magneto-resistance; Hafnium oxide; Half metallic ferromagnetism; Hardware architecture; Hydrothermal; Instrumentation; Ion irradiation; Itinerant electron; Li-doped ZnO; Magnetic oxides; Magnetic percolation; Magnetic polaron mode; Magnetic properties; Magnetism; Materials application; Materials characterization; Materials chemistry; Materials physics; Materials processing; Materials property; Materials property type; Materials science; Materials structure; Materials synthesis; Mesoscopic physics; Metal oxides; Metal oxides semiconductor; Metal-oxide-semiconductor; Microwave synthesis; Monte Carlo simulation; Nanocubes; Nanofilms; Nanoflowers; Nanoparticles; Nanorods; Nanosheets; Nanotechnology; Nanotubes; Non-magnetic oxides; Nonmagnetic oxides; Nuclear energy loss; Operating systems; Optical properties; Oxide nanoparticles; Oxide semiconductors; Oxide thin films; Oxygen vacancy; Paramagnetic defect; Physical chemistry; Physics
