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Porous Silicon Carbide and Gallium Nitride: Epitaxy, Catalysis, and Biotechlogy Applications presents the state-of-the-art in kwledge and applications of porous semiconductor ...Read more

Product description

Porous Silicon Carbide and Gallium Nitride: Epitaxy, Catalysis, and Biotechlogy Applications presents the state-of-the-art in kwledge and applications of porous semiconductor materials having a wide band gap. This comprehensive reference begins with an overview of porous wide-band-gap techlogy, and describes the underlying scientific basis for each application area. Additional chapters cover preparation, characterization, and topography; processing porous SiC; medical applications; magnetic ion behavior, and many more

Key Features
Author(s)Colin E.C. Wood, Randall M. Feenstra
PublisherJohn Wiley and Sons Ltd
Date of Publication11/03/2008
SubjectElectronics Engineering & Communications Engineering

Publication Data
Place of PublicationChicester
Country of PublicationUnited Kingdom
ImprintWiley-Blackwell (an imprint of John Wiley & Sons Ltd)
Content NoteIllustrations (some col.)

Weight622 g
Width162 mm
Height237 mm
Spine23 mm

Table Of ContentsPreface. 1. Porous SiC Preparation, Characterization and Morphology 1.1 Introduction 1.2 Triangular Porous Morphology in n-type 4H-SiC. 1.3 Nano-columnar Pore Formation in 6H SiC. 1.4 Summary. Acknowledgements. References. 2. Processing Porous SiC: Diffusion, Oxidation, Contact Formation. 2.1 Introduction. 2.2 Formation of Porous Layer. 2.3 Diffusion in Porous SiC. 2.4 Oxidation. 2.5 Contacts to Porous SiC. Acknowledgments. References. 3. Growth of SiC on Porous SiC Buffer Layers. 3.1 Introduction. 3.2 SiC CVD Growth. 3.3 Growth of 3C-SiC on porous Si via Cold-Wall Epitaxy. 3.4 Growth of 3C-SiC on Porous 3C-SiC. 3.5 Growth of 4H-SiC on Porous 4H-SiC. 3.6 Conclusion. Acknowledgements. References. 4. Preparation and Properties of Porous GaN Fabricated by Metal-Assisted Electroless Etching. 4.1 Introduction. 4.2 Creation of Porous GaN by Electroless Etching. 4.3 Morphology Characterization. 4.4 Luminescence of Porous GaN. 4.5 Raman Spectroscopy of Porous GaN. 4.6 Summary and Conclusions. Acknowledgments. References. 5. Growth of GaN on Porous SiC by Molecular Beam Epitaxy. 5.1 Introduction. 5.2 Morphology and Preparation of Porous SiC Substrates. 5.3 MBE Growth of GaN on Porous SiC Substrates. 5.4 Summary. Acknowledgments. References. 6. GaN Lateral Epitaxy Growth Using Porous SiNx, TiNx and SiC. 6.1 Introduction. 6.2 Epitaxy of GaN on Porous SiNx Network. 6.3 Epitaxial Lateral Overgrowth of GaN on Porous TiN. 6.4 Growth of GaN on Porous SiC. Acknowledgements. References. 7. HVPE Growth of GaN on Porous SiC Substrates. 7.1 Introduction. 7.2 PSC Substrate Fabrication and Properties. 7.3 Epitaxial Growth of GaN Films on PSC. Summary. References. 8. Dislocation Mechanisms in GaN Films Grown on Porous Substrates or Interlayers. 8.1 Introduction. 8.2 Extended Defects In Epitaxially Grown GaN Thin Layers. 8.3 Dislocation Mechanisms in Conventional Lateral Epitaxy Overgrowth of GaN. 8.4 Growth of GaN on Porous SiC Substrates. 8.5 Growth of GaN on Porous SiN and TiN Interlayers. 8.6 Summary. Acknowledgments. References. 9. Electrical Properties of Porous SiC. 9.1 Introduction. 9.2 Resistivity and Hall Effect. 9.3 Deep Level Transient Spectroscopy. 9.4 Sample Considerations. 9.5 Potential Energy Near a Pore. 9.6 DLTS Data and Analysis. Acknowledgements. References. 10. Magnetism of Doped GaN Nanostructures. 10.1 Introduction. 10. 2 Mn-Doped GaN Crystal. 10. 3 Mn-Doped GaN Thin Films. 10.4 Mn- and Cr-Doped GaN One-Dimensional Structures. 10.5 N-Doped Mn and Cr Clusters. 10.6 Summary. Acknowledgments References. 11 SiC Catalysis Technology. 11.1 Introduction. 11.2 Silicon Carbide Support. 11.3 Heat Effects During Reaction. 11.4 Reactions on SiC as Catalytic Supports. 11.5 Examples of SiC Catalyst Applications. 11.6 Prospects and Conclusions. References. 12. Nanoporous SiC as a Semi-Permeable Biomembrane for Medical Use: Practical and Theoretical Considerations. 12. 1. The Rationale for Implantable Semi-Permeable Materials. 12. 2. The Biology of Soluble Signaling Proteins in Tissue. 12. 3. Measuring Cytokine Secretion In Living Tissues and Organs. 12.4. Creating a Biocompatible Tissue - Device Interface: Advantages of SiC. 12.5. The Testing of SiC Membranes for Permeability of Proteins. 12.6. Improving the Structure of SiC Membranes for Biosensor Interfaces. 12.7. Theoretical Considerations: Modeling Diffusion through a Porous Membrane. 12.8. Future Development: Marriage of Membrane and Microchip. 12.9. Conclusions <9> Acknowledgments. References.

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