Handbook of Flexible Organic Electronics: Materials, Manufacturing and Applications: Woodhead Publishing Series in Electronic and Optical Materials
Editat de Stergios Logothetidisen Limba Engleză Paperback – 18 aug 2016
- Reviews the properties and production of various flexible organic materials.
- Describes the integration technologies of flexible organic electronics and their manufacturing methods.
- Looks at the application of flexible organic materials in smart integrated systems and circuits, chemical sensors, microfluidic devices, organic non-volatile memory devices, and printed batteries and other power storage devices.
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Specificații
ISBN-13: 9780081014288
ISBN-10: 0081014287
Pagini: 478
Dimensiuni: 152 x 229 x 28 mm
Greutate: 0.64 kg
Editura: ELSEVIER SCIENCE
Seria Woodhead Publishing Series in Electronic and Optical Materials
ISBN-10: 0081014287
Pagini: 478
Dimensiuni: 152 x 229 x 28 mm
Greutate: 0.64 kg
Editura: ELSEVIER SCIENCE
Seria Woodhead Publishing Series in Electronic and Optical Materials
Cuprins
- Related titles
- List of contributors
- Woodhead Publishing Series in Electronic and Optical Materials
- Part One. Properties and materials
- 1. Mechanics of curvature and strain in flexible organic electronic devices
- 1.1. Introduction
- 1.2. Stress and strain analyses
- 1.3. Failure under tensile stress
- 1.4. Failure under compressive stress
- 1.5. Mechanical test methods
- 1.6. Toward compliant and stretchable electronics
- 1.7. Conclusions
- 2. Structural and electronic properties of fullerene-based organic materials: density functional theory-based calculations
- 2.1. Introduction
- 2.2. Theoretical background
- 2.3. Structural transformations of fullerenes based on DFT calculations
- 2.4. Prototype impurities in fullerene crystals and electronic effects
- 2.5. Summary and future trends
- 3. Hybrid and nanocomposite materials for flexible organic electronics applications
- 3.1. Introduction
- 3.2. Production methods
- 3.3. Properties
- 3.4. Limitations
- 3.5. Electronics applications
- 3.6. Future trends
- 3.7. Sources of further information and advice
- 4. Organic polymeric semiconductor materials for applications in photovoltaic cells
- 4.1. Introduction
- 4.2. Polymeric electron donors for bulk-heterojunction photovoltaic solar cells
- 4.3. Fullerene and polymeric-based electron acceptors for bulk heterojunction photovoltaic solar cells
- 4.4. Hybrid structures of polymer, copolymer semiconductors with carbon nanostructures
- 4.5. Conclusions
- 1. Mechanics of curvature and strain in flexible organic electronic devices
- Part Two. Technologies
- 5. High-barrier films for flexible organic electronic devices
- 5.1. Introduction
- 5.2. Encapsulation of flexible OEs
- 5.3. Permeability mechanisms through barrier materials
- 5.4. Permeation measurement techniques
- 5.5. Advances in high-barrier materials
- 5.6. Conclusions
- 6. Advanced interconnection technologies for flexible organic electronic systems
- 6.1. Introduction
- 6.2. Materials and processes
- 6.3. Reliability
- 6.4. Summary and future trends
- 7. Roll-to-roll printing and coating techniques for manufacturing large-area flexible organic electronics
- 7.1. Introduction
- 7.2. Printing techniques
- 7.3. Coating techniques
- 7.4. Specialist coating techniques
- 7.5. Encapsulation techniques
- 7.6. Applications
- 7.7. Future trends
- 8. Integrated printing for 2D/3D flexible organic electronic devices
- 8.1. Introduction
- 8.2. Fundamentals of inkjet printing
- 8.3. Electronic inks
- 8.4. Vertically integrated inkjet-printed electronic passive components
- 8.5. Conclusions
- 9. In situ characterization of organic electronic materials using X-ray techniques
- 9.1. Introduction
- 9.2. Grazing incidence X-ray diffraction
- 9.3. Temperature-dependent studies
- 9.4. In situ X-ray studies
- 9.5. Conclusions
- 10. In-line monitoring and quality control of flexible organic electronic materials
- 10.1. Introduction
- 10.2. Fundamentals of spectroscopic ellipsometry
- 10.3. Characterization of organic electronic nanomaterials
- 10.4. Conclusions and future trends
- 11. Optimization of active nanomaterials and transparent electrodes using printing and vacuum processes
- 11.1. Introduction
- 11.2. Optimization of r2r printed active nanomaterials and electrodes
- 11.3. Combination of wet and vacuum techniques for OEs
- 11.4. Future trends
- 12. Laser processing of flexible organic electronic materials
- 12.1. Introduction
- 12.2. The physics of laser interaction with thin films
- 12.3. Laser systems and sources
- 12.4. Beam delivery assembly
- 12.5. Laser modification of materials and C surfaces
- 12.6. Laser ablation processes
- 12.7. Laser printing
- 12.8. Conclusions and future trends
- 13. Flexible organic electronic devices on metal foil substrates for lighting, photovoltaic, and other applications
- 13.1. Introduction
- 13.2. Substrate selection
- 13.3. Substrate preparation
- 13.4. TFTs for displays on metal foil
- 13.5. OLED lighting and photovoltaics on metal foil
- 13.6. Future trends
- 5. High-barrier films for flexible organic electronic devices
- Part Three. Applications
- 14. Smart integrated systems and circuits using flexible organic electronics: automotive applications
- 14.1. Introduction
- 14.2. Materials for integrated systems
- 14.3. Manufacturing processes
- 14.4. Automotive applications
- 14.5. Conclusions
- 15. Chemical sensors using organic thin-film transistors (OTFTs)
- 15.1. Introduction
- 15.2. Gas and vapour sensors
- 15.3. Humidity sensors
- 15.4. pH detection
- 15.5. Glucose detection
- 15.6. Deoxyribonucleic acid detection
- 15.7. Conclusions
- 16. Microfluidic devices using flexible organic electronic materials
- 16.1. Introduction
- 16.2. Microfluidics and electronics
- 16.3. Materials and fabrication techniques
- 16.4. Device examples
- 16.5. Summary
- 16.6. Future trends
- 17. Two-terminal organic nonvolatile memory (ONVM) devices
- 17.1. Introduction
- 17.2. Carbon nanotube (CNT)-based 2T-ONVM structures
- 17.3. Conclusion
- 18. Printed, flexible thin-film-batteries and other power storage devices
- 18.1. Introduction
- 18.2. The development of printed batteries
- 18.3. Basic design of printed batteries
- 18.4. Printing technologies and challenges
- 18.5. Properties of printed batteries
- 18.6. Conclusions and future trends
- Appendix: Patent applications on printed batteries
- 14. Smart integrated systems and circuits using flexible organic electronics: automotive applications
- Index
- Colour section plate captions