Home Page Icon
Home Page
Table of Contents for
Cover
Close
Cover
by Siegfried Bauer, Niyazi S. Sariciftci, Eric D. Glowacki, Mihai Irimia-Vladu
Green Materials for Electronics
Cover
Title Page
Copyright
List of Contributors
Preface
Chapter 1: Emerging “Green” Materials and Technologies for Electronics
1.1 Introduction to “Green” Materials for Electronics
1.2 Paper
1.3 DNA and Nucleobases
1.4 Silk
1.5 Saccharides
1.6 Aloe Vera, Natural Waxes, and Gums
1.7 Cellulose and Cellulose Derivatives
1.8 Resins
1.9 Gelatine
1.10 Proteins, Peptides, Aminoacids
1.11 Natural and Nature-Inspired Semiconductors
1.12 Perspectives
References
Chapter 2: Fabrication Approaches for Conducting Polymer Devices
2.1 Introduction
2.2 Photolithography
2.3 Printing
2.4 Conclusions
References
Chapter 3: Biocompatible Circuits for Human–Machine Interfacing
3.1 Introduction
3.2 Ion Transport Mechanisms
3.3 Organic Electronic Ion Pump
3.4 Ion Diodes, Transistors, and Circuits
3.5 Conclusions
References
Chapter 4: Biocompatible Devices and Sustainable Processes for Green Electronics: Biocompatible Organic Electronic Devices for Sensing Applications
4.1 Introduction
4.2 Fundamental Aspects of OTFT Sensors
4.3 OTFT: Sensing Applications
4.4 OTFTs: Biosensors
4.5 Conclusions
References
Chapter 5: Biocompatible Materials for Transient Electronics
5.1 Introduction
5.2 Mechanisms of Dissolution of Monocrystalline Silicon Nanomembranes (Si NMs)
5.3 Dissolution Mechanisms of Transient Conductors and Insulators
5.4 Tunable/Programmable Transience
5.5 Transient Electronic Systems
5.6 Functional Transformation via Transience
5.7 Biocompatiblity and Bioresorption
5.8 Practical Applications in Medical Implants
5.9 Conclusions
References
Chapter 6: Paper Electronics
6.1 Introduction
6.2 Paper as a Substrate for Electronics
6.3 Application Areas for Paper Electronics
6.4 Green Electronics on Paper
6.5 Paper-Based Analytical Devices and Test Platforms
6.6 Summary and Future Outlook
References
Chapter 7: Engineering DNA and Nucleobases for Present and Future Device Applications
7.1 The Versatile World of Nucleic Acids
7.2 Nucleic Acids in Electronics
7.3 Nucleic Acids in Nanotechnology
7.4 DNA Molecular Engineering
7.5 Summary and Future Outlook
Acknowledgments
References
Chapter 8: Grotthuss Mechanism: From Proton Transport in Ion Channels to Bioprotonic Devices
8.1 Introduction
8.2 Proton Wires: Chains of Hydrogen Bonds and Grotthuss Mechanisms
8.3 Proton Transport in Proton Channels
8.4 Proton Transport across Membranes and Oxidative Phosphorylation
8.5 Biopolymer Proton Conductors
8.6 Devices Based on Proton Conductors
8.7 Bioprotonic Devices: Diodes, Transistors, Memories, and Transducers
8.8 Future Outlook
Acknowledgments
References
Chapter 9: Emulating Natural Photosynthetic Apparatus by Employing Synthetic Membrane Proteins in Polymeric Membranes
9.1 Introduction
9.2 Light-Harvesting Complex II
9.3 Natural Proteins in Natural Membrane Assemblies
9.4 Plant-Inspired Photovoltaics: The Twenty-First Century and Beyond
References
Chapter 10: Organic Optoelectronic Interfaces for Vision Restoration
10.1 Introduction
10.2 Retinal Implants for Vision Restoration
10.3 Perspectives
References
Chapter 11: Nanostructured Silica from Diatoms Microalgae: Smart Materials for Photonics and Electronics
11.1 Diatoms: Living Cells in Glass Houses
11.2 Diatom Frustules in Photonics and Optics
11.3 Diatom Frustules in Electronics
11.4 Conclusions
Acknowledgments
References
Index
End User License Agreement
Search in book...
Toggle Font Controls
Playlists
Add To
Create new playlist
Name your new playlist
Playlist description (optional)
Cancel
Create playlist
Sign In
Email address
Password
Forgot Password?
Create account
Login
or
Continue with Facebook
Continue with Google
Sign Up
Full Name
Email address
Confirm Email Address
Password
Login
Create account
or
Continue with Facebook
Continue with Google
Next
Next Chapter
Contents
Add Highlight
No Comment
..................Content has been hidden....................
You can't read the all page of ebook, please click
here
login for view all page.
Day Mode
Cloud Mode
Night Mode
Reset