Solution Processing of Inorganic Materials

Name: Solution Processing of Inorganic Materials
Brand: Wiley & Sons, Wiley-Interscience
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Klappentext zu „Solution Processing of Inorganic Materials “

The search for electronic materials that can be solution-processed into thin-film form at low temperature while simultaneously providing quality device characteristics represents a substantial challenge for materials chemists. Continuous semiconducting thin films with field-effect mobilities of 10 cm²/V-sec are particularly desirable for high-speed microelectronic applications. Other device components (dielectrics, contacts, buffer layers, etc.) must also be able to be deposited from solution to provide for ultimate low-cost device fabrication. Attainment of the above goals would provide important new opportunities for electronic devices, including potentially low-cost, large-area and flexible computing devices, displays, sensors and solar cells. While the majority of work toward this goal has focused on organic films (both molecular and polymeric), this book will review recent developments in the search for solution-processible inorganic semiconductors (as well as other critical electronic components), offering the potential for much higher performance and better thermal/mechanical stability than comparable organic-based systems. In particular, the book will focus on materials and techniques that are compatible with high-throughput, low-cost and low-temperature deposition processes, such as spin coating, dip coating, printing or stamping, since these offer the highest probablility of revolutionizing the electronics industry. Throughout the text, emphasis will be placed on providing concrete examples of applications that employ the described solution-processed films (transistors, solar cells, sensors, etc.).

The search for electronic materials that can be solution-processed into thin-film form at low temperature while simultaneously providing quality device characteristics represents a substantial challenge for materials chemists. Continuous semiconducting thin films with field-effect mobilities of >10 cm²/V-sec are particularly desirable for high-speed microelectronic applications. Other device components (dielectrics, contacts, buffer layers, etc.) must also be able to be deposited from solution to provide for ultimate low-cost device fabrication. Attainment of the above goals would provide important new opportunities for electronic devices, including potentially low-cost, large-area and flexible computing devices, displays, sensors and solar cells. While the majority of work toward this goal has focused on organic films (both molecular and polymeric), this book will review recent developments in the search for solution-processible inorganic semiconductors (as well as other critical electronic components), offering the potential for much higher performance and better thermal/mechanical stability than comparable organic-based systems. In particular, the book will focus on materials and techniques that are compatible with high-throughput, low-cost and low-temperature deposition processes, such as spin coating, dip coating, printing or stamping, since these offer the highest probablility of revolutionizing the electronics industry. Throughout the text, emphasis will be placed on providing concrete examples of applications that employ the described solution-processed films (transistors, solar cells, sensors, etc.).

Inhaltsverzeichnis zu „Solution Processing of Inorganic Materials “

Preface

Contributors

1. Introduction to Solution-Deposited Inorganic Electronics (Robert H. Reuss and Babu R. Chalamala)

References

2. Chemical Solution Deposition--Basic Principles (Robert W. Schwartz and Manoj Narayanan)

References

3. Solution Processing of Chalcogenide Semiconductors via Dimensional Reduction (David B. Mitzi)

References

4. Oxide Dielectric Films for Active Electronics (Douglas A. Keszler, Jeremy T. Anderson, and Stephen T. Meyers)

References

5. Liquid Silicon Materials (Masahiro Furusawa and Hideki Tanaka)

Acknowledgments

References

6. Spray CVD of Single-Source Precursors for Chalcopyrite I-III-VI2 Thin-Film Materials (Aloysius F. Hepp, Kulbinder K. Banger, Michael H.-C. Jin, Jerry D. Harris, Jeremiah S. McNatt, and John E. Dickman)

Acknowledgments

References

7. Chemical Bath Deposition, Electrodeposition, and Electroless Deposition of Semiconductors, Superconductors, and Oxide Materials (Raghu Bhattacharya)

References

8. Successive Ionic Layer Adsorption and Reaction (SILAR) and Related Sequential Solution-Phase Deposition Techniques (Seppo Lindroos and Markku Leskelä)

References

9. Evaporation-Induced Self-Assembly for the Preparation of Porous Metal Oxide Films (Bernd Smarsly and Dina Fattakhova-Rohlfing)

References

10. Engineered Nanomaterials as Soluble Precursors for Inorganic Films (Dmitri V. Talapin)

Acknowledgments

References

11. Functional Structures Assembled from Nanoscale Building Blocks (Yu Huang)

References

12. Patterning Techniques for Solution Deposition (Paul Brazis, Daniel Gamota, Jie Zhang, and John Szczech)

References

13. Transfer Printing Techniques and Inorganic Single-Crystalline Materials for Flexible and Stretchable Electronics (Jong-Hyun Ahn, Matthew A. Meitl, Afl red J. Baca, Dahl-Young Khang, Hoon-Sik Kim, and John A. Rogers)

References

14. Future Directions for Solution-Based Processing of Inorganic Materials (M. F. A. M.

... mehr

van Hest and D. S. Ginley)

References

Index

... weniger

Autoren-Porträt

David B. Mitzi, PhD, is a Research Staff Member in the Physical Sciences Department at the IBM Thomas J. Watson Research Center. His research examines the solid-state chemistry, thin-film deposition and device opportunities for a variety of materials with potentially useful electronic or optical properties. Most recently, his focus has been on organic-inorganic hybrids and the development of solution-processed high-mobility inorganic semiconductors for thin-film devices (e.g., TFTs, LEDs, solar cells). Dr. Mitzi holds a number of patents and has authored or coauthored more than one hundred papers.

Bibliographische Angaben

2009, 1. Auflage, 520 Seiten, Maße: 16,2 x 24,3 cm, Gebunden, Englisch
Herausgegeben: David Mitzi
Verlag: Wiley & Sons
ISBN-10: 0470406658
ISBN-13: 9780470406656
Erscheinungsdatum: 04.02.2009

Sprache:

Englisch

Pressezitat

"Throughout the text, illustrations and examples of applications are provided to help the reader fully appreciate the concepts and opportunities involved in this exciting field." (International Journal Microstructure & Materials Properties, 2009)

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