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Zinc Oxide Materials for Electronic and Optoelectronic Device Applications Wiley Series in Materials for Electronic Optoelectronic Applications 1st Edition by Cole W. Litton, Donald Reynolds, Thomas Collins ISBN 978-0470519714 0470519714

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Zinc Oxide Materials for Electronic and Optoelectronic Device Applications Wiley Series in Materials for Electronic Optoelectronic Applications 1st Edition Cole W. Litton Digital Instant Download

Author(s): Cole W. Litton, Donald C. Reynolds, Thomas C. Collins (Eds.)
ISBN(s): 9781119991038, 111999103X
Edition: 1
File Details: PDF, 42.05 MB
Year: 2011
Language: english
SKU: EB-2378878 Category: Tags: , ,

Zinc Oxide Materials for Electronic and Optoelectronic Device Applications Wiley Series in Materials for Electronic Optoelectronic Applications 1st Edition by Cole W. Litton, Donald C. Reynolds, Thomas C. Collins – Ebook PDF Instant Download/Delivery:  978-0470519714, 0470519714
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Product details: 

ISBN 10:  0470519714

ISBN 13: 978-0470519714

Author:  Cole W. Litton, Donald C. Reynolds, Thomas C. Collins

Zinc Oxide (ZnO) powder has been widely used as a white paint pigment and industrial processing chemical for nearly 150 years. However, following a rediscovery of ZnO and its potential applications in the 1950s, science and industry alike began to realize that ZnO had many interesting novel properties that were worthy of further investigation.
ZnO is a leading candidate for the next generation of electronics, and its biocompatibility makes it viable for medical devices. This book covers recent advances including crystal growth, processing and doping and also discusses the problems and issues that seem to be impeding the commercialization of devices.

Topics include:

Energy band structure and spintronics
Fundamental optical and electronic properties
Electronic contacts of ZnO
Growth of ZnO crystals and substrates
Ultraviolet photodetectors
ZnO quantum wells
Zinc Oxide Materials for Electronic and Optoelectronic Device Applications is ideal for university, government, and industrial research and development laboratories, particularly those engaged in ZnO and related materials research.

Table of contents: 

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

 1.1 Introduction
  1.1.1 Overview
  1.1.2 Organization of Chapter
 1.2 Band Structure
  1.2.1 Valence and Conduction Bands
 1.3 Optical Properties
  1.3.1 Free and Bound Excitons
  1.3.2 Effects of External Magnetic Field on ZnO Excitons
  1.3.3 Strain Field
  1.3.4 Spatial Resonance Dispersion
 1.4 Electrical Properties
  1.4.1 Intrinsic Electronic Transport Properties
  1.4.2 n-type Doping and Donor Levels
  1.4.3 p-type Doping and Dopability
  1.4.4 Schottky Barriers and Ohmic Contacts
 1.5 Band Gap Engineering
  1.5.1 Homovalent Heterostructures
  1.5.2 Heterovalent Heterostructures
 1.6 Spintronics
 1.7 Summary
 References

  1. 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 Γ5 and Γ6 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
 References

  1. Electrical Transport Properties in Zinc Oxide
     B. Claflin and D. C. Look

 3.1 Introduction
 3.2 Hall-Effect Analysis
  3.2.1 Single-Band Conduction
  3.2.2 Two-Band Mixed Conduction
  3.2.3 Conducting Surface Layers
 3.3 Donor States and n-type Doping
  3.3.1 Native Point Defects – Donors
  3.3.2 Substitutional Donors
 3.4 Hydrogen
 3.5 Acceptor States and p-type Doping
  3.5.1 Native Point Defects – Acceptors
  3.5.2 Substitutional Acceptors
 3.6 Photoconductivity
 3.7 Summary
 References

  1. ZnO Surface Properties and Schottky Contacts
     Leonard J. Brillson

 4.1 Historical Background of Schottky Contacts on ZnO
  4.1.1 ZnO Surface Effects
  4.1.2 Early Schottky Barrier Studies
 4.2 Recent Schottky Barrier Studies
  4.2.1 Surface Cleaning in Vacuum
  4.2.2 Surface Cleaning Effects on Impurities and Defects

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Tags: Cole Litton, Donald Reynolds, Thomas Collins, Zinc Oxide Materials, Electronic and Optoelectronic