Transparent Electronics
From Synthesis to Applications
Herausgegeben von Facchetti, Antonio; Marks, Tobin
Transparent Electronics
From Synthesis to Applications
Herausgegeben von Facchetti, Antonio; Marks, Tobin
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Transparent electronics, an emerging technology, aims to produce?invisible? electronic circuits and devices. TransparentElectronics provides fundamental information on transparentelectronic materials, circuits, and devices. This book combinesintroductory and advanced topics as well as scientific andapplication issues. Including contributions from well-knowninternational experts, the book closely examines key aspectsinvolved in the development of new active materials for functionaltransparent electronics. Edited by academics with outstandingreputations in the field, this helpful resource is…mehr
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Hinweis: Dieser Artikel kann nur an eine deutsche Lieferadresse ausgeliefert werden.
- Produktdetails
- Verlag: Wiley & Sons
- 1. Auflage
- Seitenzahl: 470
- Erscheinungstermin: 8. Juni 2010
- Englisch
- Abmessung: 249mm x 175mm x 30mm
- Gewicht: 986g
- ISBN-13: 9780470990773
- ISBN-10: 0470990775
- Artikelnr.: 28776877
- Verlag: Wiley & Sons
- 1. Auflage
- Seitenzahl: 470
- Erscheinungstermin: 8. Juni 2010
- Englisch
- Abmessung: 249mm x 175mm x 30mm
- Gewicht: 986g
- ISBN-13: 9780470990773
- ISBN-10: 0470990775
- Artikelnr.: 28776877
Electrical Conductivity: Challenges and Prospects (Julia E. Medvedeva). 1.1
Introduction. 1.2 Electronic Properties of Conventional TCO Hosts. 1.3
Carrier Generation in Conventional TCO Hosts. 1.4 Magnetically Mediated
TCO. 1.5 Multicomponent TCO Hosts. 1.6 Electronic Properties of Light Metal
Oxides. 1.7 Carrier Delocalization in Complex Oxides. 1.8 An Outlook:
Toward an Ideal TCO. Acknowledgements. References. 2 Transparent Oxide
Semiconductors: Fundamentals and Recent Progress (Hideo Hosono). 2.1
Introduction. 2.2 Electronic Structure in Oxides: Carrier Transport Paths
in Semiconductors. 2.3 Materials Design of p-Type TOSs. 2.4 Layered
Oxychalcogenides: Improved p-Type Conduction and Room-Temperature Stable
Excitons. 2.5 Nanoporous Crystal, C12A7: New Functions Created by
Subnanometer Cages and Clathrated Anions. 2.6 TAOSs and their TFT
Applications. 2.7 Perspective. References. 3 p-Type Wide-Band-Gap
Semiconductors for Transparent Electronics (Janet Tate and Douglas A.
Keszler). 3.1 Introduction. 3.2 Applications. 3.3 Challenges Associated
with p-Type Wide-Gap Semiconductors . 3.4 Materials. 3.5 Outlook and
Prospects. References. 4 Lead Oxides: Synthesis and Applications (Dale L.
Perry). 4.1 Introduction. 4.2 Overview of Synthetic Methods and Approaches.
4.3 Synthesis of Lead Oxides. 4.4 Applications of Lead Oxides. 4.5 Summary.
Acknowledgement. References. 5 Deposition and Performance Challenges of
Transparent Conductive Oxides on Plastic Substrates (Clark I. Bright). 5.1
Introduction. 5.2 Challenges with Plastic Substrates. 5.3 TCO Performance
Comparison - Glass Versus Plastic Substrates. 5.4 Conductivity Mechanisms
in TCO. 5.5 Qualitative TCO Doping Model. 5.6 Industrial TCO Deposition
Methods on Plastic Substrates. 5.7 Developing a TCO Deposition Process. 5.8
Controlling TCO E/O Properties. 5.9 TSO for Transparent Oxide Electronics.
5.10 p-Type TCO and TSO. 5.11 Key Points and Summary. References. 6 Oxide
Semiconductors: From Materials to Devices (Elvira Fortunato, Pedro
Barquinha, Gonçalo Gonçalves, Luís Pereira and Rodrigo Martins). 6.1
Introduction. 6.2 Historical Background: From Field Effect Transistors
(FETs) to TFTs. 6.3 Transparent Oxide Semiconductors. 6.4 Emerging Devices
Based on Cellulose Paper: Paper FETs. 6.5 Conclusions and Outlook.
Acknowledgements. References. 7 Carbon Nanotube Transparent Electrodes
(Teresa M. Barnes and Jeffrey L. Blackburn). 7.1 Introduction. 7.2
Chirality and Band Structure of SWCNTs. 7.3 Synthesis, Purification, and
Dispersion of SWCNTs. 7.4 Deposition of SWCNT Networks. 7.5 Effects of
Chemical Doping. 7.6 Optical Properties of SWCNTs and SWCNT Networks. 7.7
Electrical Properties of SWCNT Networks. 7.8 Sheet Resistance and Transport
Measurements. 7.9 Morphology of SWCNT Networks. 7.10 Literature Results on
Transparent SWCNT Networks. 7.11 Conclusions. Acknowledgements. References.
8 Application of Transparent Amorphous Oxide Thin Film Transistors to
Electronic Paper (Manabu Ito). 8.1 Introduction. 8.2 Microencapsulated
Electrophoretic Display. 8.3 Flexible Electronic Paper. 8.4 Application of
Transparent Electronics. 8.5 Conclusion. Acknowledgements. References. 9
Solution-Processed Electronics Based on Transparent Conductive Oxides
(Vivek Subramanian). 9.1 Introduction. 9.2 Solution-Processed Transparent
Conductive Oxides. 9.3 Summary. References. 10 Transparent Metal Oxide
Nanowire Electronics (Roc1ío Ponce Ortiz, Antonio Facchetti and Tobin J.
Marks). 10.1 Introduction. 10.2 Nanowire Transistors. 10.3 Transparent
Nanowire Circuits and Displays. 10.4 Conclusions. References. 11
Application of Transparent Oxide Semiconductors for Flexible Electronics
(Peter F. Carcia). 11.1 Introduction. 11.2 Zinc Oxide. 11.3 Indium Oxide.
11.4 SnO2 Thin Film Transistors. 11.5 Gate Dielectrics. 11.6 Transistors on
Plastic Substrates. 11.7 Patterning. 11.8 Conclusions. Acknowledgements.
References. 12 Transparent OLED Displays (Thomas Riedl). 12.1 Introduction.
12.2 Transparent OLEDs. 12.3 Transparent Thin Film Transistors. 12.4
Transparent Active Matrix OLED Displays. 12.5 Conclusions.
Acknowledgements. References. 13 Oxide-Based Electrochromics (Claes G.
Granqvist). 13.1 Introduction. 13.2 Electrochromic Devices. 13.3 Some
Recent Research Results. 13.4 Summary and Concluding Remarks. References.
14 Transparent Solar Cells Based on Organic Polymers (Jinsong Huang, Gang
Li, Juo-Hao Li, Li-Min Chen and Yang Yang). 14.1 Introduction. 14.2
Multiple Metal Layer Structure as Transparent Cathode. 14.3 Transparent
Metal Oxide for Anode of High Performance Transparent Solar Cell. 14.4
Transparent Solar Cell Fabricated by Lamination. 14.5 Conclusion and
Remarks. References. 15 Organic Electro-Optic Modulators with Substantially
Enhanced Performance Based on Transparent Electrodes (Fei Yi, Seng-Tiong Ho
and Tobin J. Marks). 15.1 Introduction. 15.2 TC-Based Low-Voltage,
High-Speed Organic EO Modulators. 15.3 Full Design: A Detailed Example of
High-Frequency Modulator Design. 15.4 Experimental Realization of a
TC-Based Organic EO Modulator and Measurement Result. Acknowledgements.
References. 16 Naphthalenetetracarboxylic Diimides as Transparent Organic
Semiconductors (Kevin Cua See and Howard E. Katz). 16.1 Introduction. 16.2
Initial Demonstration of NTCDI Semiconductor FETs. 16.3 Further Structural
Elaboration of NTCDI Molecular Semiconductors. 16.4 Use of NTCDI
Semiconductors in Multifunctional Transistors. 16.5 Conclusion.
Acknowledgements. References. 17 Transparent Metal Oxide Semiconductors as
Gas Sensors (Camilla Baratto, Elisabetta Comini, Guido Faglia, Matteo
Ferroni, Andrea Ponzoni, Alberto Vomiero and Giorgio Sberveglieri). 17.1
Introduction. 17.2 Sensing with Nanostructures. 17.3 Synthesis of
Nanostructures for Sensing. 17.4 Gas Sensing with Nanowires. 17.5
Chemoresistive Sensing Properties of In2O3 Nanowires. References. Index.
Electrical Conductivity: Challenges and Prospects (Julia E. Medvedeva). 1.1
Introduction. 1.2 Electronic Properties of Conventional TCO Hosts. 1.3
Carrier Generation in Conventional TCO Hosts. 1.4 Magnetically Mediated
TCO. 1.5 Multicomponent TCO Hosts. 1.6 Electronic Properties of Light Metal
Oxides. 1.7 Carrier Delocalization in Complex Oxides. 1.8 An Outlook:
Toward an Ideal TCO. Acknowledgements. References. 2 Transparent Oxide
Semiconductors: Fundamentals and Recent Progress (Hideo Hosono). 2.1
Introduction. 2.2 Electronic Structure in Oxides: Carrier Transport Paths
in Semiconductors. 2.3 Materials Design of p-Type TOSs. 2.4 Layered
Oxychalcogenides: Improved p-Type Conduction and Room-Temperature Stable
Excitons. 2.5 Nanoporous Crystal, C12A7: New Functions Created by
Subnanometer Cages and Clathrated Anions. 2.6 TAOSs and their TFT
Applications. 2.7 Perspective. References. 3 p-Type Wide-Band-Gap
Semiconductors for Transparent Electronics (Janet Tate and Douglas A.
Keszler). 3.1 Introduction. 3.2 Applications. 3.3 Challenges Associated
with p-Type Wide-Gap Semiconductors . 3.4 Materials. 3.5 Outlook and
Prospects. References. 4 Lead Oxides: Synthesis and Applications (Dale L.
Perry). 4.1 Introduction. 4.2 Overview of Synthetic Methods and Approaches.
4.3 Synthesis of Lead Oxides. 4.4 Applications of Lead Oxides. 4.5 Summary.
Acknowledgement. References. 5 Deposition and Performance Challenges of
Transparent Conductive Oxides on Plastic Substrates (Clark I. Bright). 5.1
Introduction. 5.2 Challenges with Plastic Substrates. 5.3 TCO Performance
Comparison - Glass Versus Plastic Substrates. 5.4 Conductivity Mechanisms
in TCO. 5.5 Qualitative TCO Doping Model. 5.6 Industrial TCO Deposition
Methods on Plastic Substrates. 5.7 Developing a TCO Deposition Process. 5.8
Controlling TCO E/O Properties. 5.9 TSO for Transparent Oxide Electronics.
5.10 p-Type TCO and TSO. 5.11 Key Points and Summary. References. 6 Oxide
Semiconductors: From Materials to Devices (Elvira Fortunato, Pedro
Barquinha, Gonçalo Gonçalves, Luís Pereira and Rodrigo Martins). 6.1
Introduction. 6.2 Historical Background: From Field Effect Transistors
(FETs) to TFTs. 6.3 Transparent Oxide Semiconductors. 6.4 Emerging Devices
Based on Cellulose Paper: Paper FETs. 6.5 Conclusions and Outlook.
Acknowledgements. References. 7 Carbon Nanotube Transparent Electrodes
(Teresa M. Barnes and Jeffrey L. Blackburn). 7.1 Introduction. 7.2
Chirality and Band Structure of SWCNTs. 7.3 Synthesis, Purification, and
Dispersion of SWCNTs. 7.4 Deposition of SWCNT Networks. 7.5 Effects of
Chemical Doping. 7.6 Optical Properties of SWCNTs and SWCNT Networks. 7.7
Electrical Properties of SWCNT Networks. 7.8 Sheet Resistance and Transport
Measurements. 7.9 Morphology of SWCNT Networks. 7.10 Literature Results on
Transparent SWCNT Networks. 7.11 Conclusions. Acknowledgements. References.
8 Application of Transparent Amorphous Oxide Thin Film Transistors to
Electronic Paper (Manabu Ito). 8.1 Introduction. 8.2 Microencapsulated
Electrophoretic Display. 8.3 Flexible Electronic Paper. 8.4 Application of
Transparent Electronics. 8.5 Conclusion. Acknowledgements. References. 9
Solution-Processed Electronics Based on Transparent Conductive Oxides
(Vivek Subramanian). 9.1 Introduction. 9.2 Solution-Processed Transparent
Conductive Oxides. 9.3 Summary. References. 10 Transparent Metal Oxide
Nanowire Electronics (Roc1ío Ponce Ortiz, Antonio Facchetti and Tobin J.
Marks). 10.1 Introduction. 10.2 Nanowire Transistors. 10.3 Transparent
Nanowire Circuits and Displays. 10.4 Conclusions. References. 11
Application of Transparent Oxide Semiconductors for Flexible Electronics
(Peter F. Carcia). 11.1 Introduction. 11.2 Zinc Oxide. 11.3 Indium Oxide.
11.4 SnO2 Thin Film Transistors. 11.5 Gate Dielectrics. 11.6 Transistors on
Plastic Substrates. 11.7 Patterning. 11.8 Conclusions. Acknowledgements.
References. 12 Transparent OLED Displays (Thomas Riedl). 12.1 Introduction.
12.2 Transparent OLEDs. 12.3 Transparent Thin Film Transistors. 12.4
Transparent Active Matrix OLED Displays. 12.5 Conclusions.
Acknowledgements. References. 13 Oxide-Based Electrochromics (Claes G.
Granqvist). 13.1 Introduction. 13.2 Electrochromic Devices. 13.3 Some
Recent Research Results. 13.4 Summary and Concluding Remarks. References.
14 Transparent Solar Cells Based on Organic Polymers (Jinsong Huang, Gang
Li, Juo-Hao Li, Li-Min Chen and Yang Yang). 14.1 Introduction. 14.2
Multiple Metal Layer Structure as Transparent Cathode. 14.3 Transparent
Metal Oxide for Anode of High Performance Transparent Solar Cell. 14.4
Transparent Solar Cell Fabricated by Lamination. 14.5 Conclusion and
Remarks. References. 15 Organic Electro-Optic Modulators with Substantially
Enhanced Performance Based on Transparent Electrodes (Fei Yi, Seng-Tiong Ho
and Tobin J. Marks). 15.1 Introduction. 15.2 TC-Based Low-Voltage,
High-Speed Organic EO Modulators. 15.3 Full Design: A Detailed Example of
High-Frequency Modulator Design. 15.4 Experimental Realization of a
TC-Based Organic EO Modulator and Measurement Result. Acknowledgements.
References. 16 Naphthalenetetracarboxylic Diimides as Transparent Organic
Semiconductors (Kevin Cua See and Howard E. Katz). 16.1 Introduction. 16.2
Initial Demonstration of NTCDI Semiconductor FETs. 16.3 Further Structural
Elaboration of NTCDI Molecular Semiconductors. 16.4 Use of NTCDI
Semiconductors in Multifunctional Transistors. 16.5 Conclusion.
Acknowledgements. References. 17 Transparent Metal Oxide Semiconductors as
Gas Sensors (Camilla Baratto, Elisabetta Comini, Guido Faglia, Matteo
Ferroni, Andrea Ponzoni, Alberto Vomiero and Giorgio Sberveglieri). 17.1
Introduction. 17.2 Sensing with Nanostructures. 17.3 Synthesis of
Nanostructures for Sensing. 17.4 Gas Sensing with Nanowires. 17.5
Chemoresistive Sensing Properties of In2O3 Nanowires. References. Index.