Springer handbook of electronic and photonic materials / Safa Kasap, Peter Capper (Eds.).
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Published: |
New York :
Springer,
c2006.
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Other Authors: | |
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Format: | Software Book |
Table of Contents:
- 1. Perspectives on electronic and optoelectronic materials
- 2. Electrical conduction in metals and semiconductors
- 3. Optical properties of electronic materials : fundamentals and characterization
- 4. Magnetic properties of electronic materials
- 5. Defects in monocrystalline silicon
- 6. Diffusion in semiconductors
- 7. Photoconductivity in materials research
- 8. Electronic properties of semiconductor interfaces
- 9. Charge transport in disordered materials
- 10. Dielectric response
- 11. Ionic conduction and applications
- 12. Bulk crystal growth - methods and materials
- 13. Single-crystal silicon : growth and properties
- 14. Epitaxial crystal growth : methods and materials
- 15. Narrow-bandgap II-VI semiconductors : growth
- 16. Wild-bandgap II-VI semiconductors : growth and properties
- 17. Structural characterization
- 18. Surface chemical analysis
- 19. Thermal properties and thermal analysis : fundamentals, experimental techniques and applications
- 20. Electrical characterization of semiconductor materials and devices
- 21. Single-crystal silicon : electrical and optical properties
- 22. Silicon-Germanium : properties, growth and applications
- 23. Gallium arsenide
- 24. High-temperature electronic materials : silicon carbide and diamond
- 25. Amorphous semiconductors : structure, optical, and electrical properties
- 26. Amorphous and microcrystalline silicon
- 27. Ferroelectric materials
- 28. Dielectric materials for microelectronics
- 29. Thin films
- 30. Thick films
- 31. III-V ternary and quaternary compounds
- 32. Group III nitrides
- 33. Electron transport within the III-V nitride semiconductors, GaN, AlN, and InN : a Monte Carlo analysis
- 34. II-IV semiconductors for optoelectronics : CdS, CdSe, CdTe
- 35. Doping aspect of Zn-based wide-band-gap semiconductors
- 36. II-VI narrow-bandgap semiconductors for optoelectronics
- 37. Optoelectronic devices and materials
- 38. Liquid crystals
- 39. Organic photoconductors
- 40. Luminescent materials
- 41. Non-engineered tunable photonic crystals in the near-IR and visible electromagnetic spectrum
- 42. Quantum wells, superlattices, and band-gap engineering
- 43. Glasses for photonic integration
- 44. Optical nonlinearity in photonic glasses
- 45. Nonlinear optoelectronic materials
- 46. Solar cells and photovoltaics
- 47. Silicon on mechanically flexible substrates for large-area electronics
- 48. Photoconductors for X-ray image detectors
- 49. Phase-change optical recording
- 50. Carbon nanotubes and bucky materials
- 51. Magnetic information-storage materials
- 52. High-temperature superconductors
- 53. Molecular electronics
- 54. Organic materials for chemical sensing
- 55. Packaging materials.