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Litton, Cole

Zinc Oxide Materials for Electronic and Optoelectronic Device Applications

€ 204.95

This book provides a complete coverage of all the essentials of zinc oxide material properties, growth, processing, characterization, and devices in a single volume.

Taal / Language : English

Series Preface.


List of Contributors.

1 Fundamental Properties of ZnO (T. C. Collins and R. J. Hauenstein).

1.1 Introduction.

1.2 Band Structure.

1.3 Optical Properties.

1.4 Electrical Properties.

1.5 Band Gap Engineering.

1.6 Spintronics.

1.7 Summary.

2 Optical Properties of ZnO (D. C. Reynolds, C. W. Litton and T. C. Collins).

2.1 Introduction.

2.2 Free Excitons.

2.3 Strain Splitting of the G5 and G6 Free Excitons in ZnO.

2.4 Photoluminescence from the Two Polar Faces of ZnO.

2.5 Bound-Exciton Complexes in ZnO.

2.6 Similarities in the Photoluminescence Mechanisms of ZnO and GaN.

2.7 The Combined Effects of Screening and Band Gap Renormalization on the Energy of Optical Transitions in ZnO and GaN.

2.8 Closely Spaced Donor-Acceptor Pairs in ZnO.

2.9 Summary.

3 Electrical Transport Properties in Zinc Oxide (B. Claflin and D. C. Look).

3.1 Introduction.

3.2 Hall-Effect Analysis.

3.3 Donor States and n-type Doping.

3.4 Hydrogen.

3.5 Acceptor States and p-type Doping.

3.6 Photoconductivity.

3.7 Summary.

4 ZnO Surface Properties and Schottky Contacts (Leonard J. Brillson).

4.1 Historical Background of Schottky Contacts on ZnO.

4.2 Recent Schottky Barrier Studies.

4.3 The Influence of Surface Preparation on Schottky Barriers.

4.4 The Influence of Defects on Schottky Barriers.

4.5 The Influence of ZnO Polarity on Schottky Barriers.

4.6 The Influence of Chemistry.

4.7 Charge Transport and Extended Metal-ZnO Schottky Barriers.

4.8 Conclusion.

5 Native Point Defects and Doping in ZnO (Anderson Janotti and Chris G. Van de Walle).

5.1 Introduction.

5.2 Theoretical Framework.

5.3 Native Point Defects.

5.4 Donor Impurities.

5.5 Acceptor Impurities.

5.6 Isoelectronic Impurities.

6 Spectral Identification of Impurities and Native Defects in ZnO (B.K. Meyer, D.M. Hofmann, J. Stehr and A. Hoffmann).

6.1 Introduction.

6.2 Optical Spectroscopy.

6.3 Magnetic Resonance Investigations.

7 Vapor Transport Growth of ZnO Substrates and Homoepitaxy of ZnO Device Layers (Gene Cantwell, Jizhi Zhang and J.J. Song).

7.1 Introduction.

7.2 Transport Theory and Comparison with Growth Data.

7.3 Characterization.

7.4 In-situ Doping.

7.5 ZnO Homoepitaxy.

7.6 Summary.

8 Growth Mechanisms and Properties of Hydrothermal ZnO (M. J. Callahan, Dirk Ehrentraut, M. N. Alexander and Buguo Wang).

8.1 Introduction.

8.2 Overview of Hydrothermal Solution Growth.

8.3 Thermodynamics of Hydrothermal Growth of ZnO.

8.4 Hydrothermal Growth Techniques.

8.5 Growth Kinetics of Hydrothermal ZnO.

8.6 Properties of Bulk Hydrothermal ZnO.

8.7 Conclusion.

9 Growth and Characterization of GaN/ZnO Heteroepitaxy and ZnO-Based Hybrid Devices (Ryoko Shimada and Hadis Morkoc).

9.1 Introduction.

9.2 Growth of GaN/ZnO.

9.3 Compositional Analysis.

9.4 Structural Analysis.

9.5 Surface Studies.

9.6 Optical Properties.

9.7 Electrical Properties.

9.8 GaN/ZnO Hybrid Devices.

9.9 Conclusions.

10 Room Temperature Stimulated Emission and ZnO-Based Lasers (D.M. Bagnall).

10.1 Introduction.

10.2 Emission Mechanisms.

10.3 Stimulated Emission.

10.4 Zinc Oxide Lasers.

10.5 Conclusions.

11 ZnO-Based Ultraviolet Detectors (Jian Zhong and Yicheng Lu).

11.1 Introduction.

11.2 Photoconductivity in ZnO.

11.3 ZnO Film-Based UV Photodetectors.

11.4 ZnO NW UV Photodetectors.

11.5 Conclusions.

12 Room-Temperature Stimulated Emission from ZnO Multiple Quantum Wells Grown on Lattice-Matched Substrates (Takayuki Makino, Yusaburo Segawa, Masashi Kawasaki and Hideomi Koinuma).

12.1 Introduction.

12.2 Experimental Details.

12.3 Quantum Confinement Effect of Excitons in QWs.

12.4 Exciton-Phonon Interaction in QWs.

12.5 The Localization Mechanism of the Exciton in a QW.

12.6 Time-Resolved Luminescence in ZnO QWs.

12.7 Stimulated Emission in MQWs.

12.8 Summary.



Extra informatie: 
386 pagina's
Januari 2011
806 gram
254 x 176 x 26 mm
Wiley-Blackwell us

Levertijd: 5 tot 11 werkdagen