Flexible Flat Panel Displays by Gregory P. Crawford (English) Hardcover Book

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Flexible Flat Panel Displays

by Gregory P. Crawford, Darran R. Cairns, Dirk J. Broer

Flexible Flat Panel Displays A complete treatment of the entire lifecycle of flexible flat panel displays, from raw material selection to commercialization In the newly revised Second Edition of Flexible Flat Panel Displays, a distinguished team of researchers delivers a completely restructured and comprehensive treatment of the field of flexible flat panel displays. With material covering the end-to-end process that includes commercial and technical aspects of the technology, the editors have included contributions that introduce the business, marketing, entrepreneurship, and intellectual property content relevant to flexible flat panel displays. This edited volume contains a brand-new section on case studies using the Harvard Business School format that discusses current and emerging markets in flexible displays, such as an examination of the use of electronic ink and QD Vision in commercial devices. From raw material selection to device prototyping, manufacturing, and commercialization, each stage of the flexible display business is discussed in this insightful new edition. The book also includes: Thorough introductions to engineered films for display technology and liquid crystal optical coatings for flexible displaysComprehensive explorations of organic TFT foils, metallic nanowires, adhesives, and self-healing polymer substratesPractical discussions of flexible glass, AMOLEDs, cholesteric displays, and electronic paperIn-depth examinations of the encapsulation of flexible displays, flexible batteries, flexible flat panel photodetectors, and flexible touch screens Perfect for professionals working in the field of display technology with backgrounds in science and engineering, Flexible Flat Panel Displays is also an indispensable resource for professionals with marketing, sales, and technology backgrounds, as well as senior undergraduates and graduate students in engineering and materials science.

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A complete treatment of the entire lifecycle of flexible flat panel displays, from raw material selection to commercialization In the newly revised Second Edition of Flexible Flat Panel Displays , a distinguished team of researchers delivers a completely restructured and comprehensive treatment of the field of flexible flat panel displays. With material covering the end-to-end process that includes commercial and technical aspects of the technology, the editors have included contributions that introduce the business, marketing, entrepreneurship, and intellectual property content relevant to flexible flat panel displays. This edited volume contains a brand-new section on case studies using the Harvard Business School format that discusses current and emerging markets in flexible displays, such as an examination of the use of electronic ink and QD Vision in commercial devices. From raw material selection to device prototyping, manufacturing, and commercialization, each stage of the flexible display business is discussed in this insightful new edition. The book also includes: Thorough introductions to engineered films for display technology and liquid crystal optical coatings for flexible displays Comprehensive explorations of organic TFT foils, metallic nanowires, adhesives, and self-healing polymer substrates Practical discussions of flexible glass, AMOLEDs, cholesteric displays, and electronic paper In-depth examinations of the encapsulation of flexible displays, flexible batteries, flexible flat panel photodetectors, and flexible touch screens Perfect for professionals working in the field of display technology with backgrounds in science and engineering, Flexible Flat Panel Displays is also an indispensable resource for professionals with marketing, sales, and technology backgrounds, as well as senior undergraduates and graduate students in engineering and materials science.

Author Biography

Darran R. Cairns, PhD, is a member of the Faculty in the School of Science & Engineering at University of Missouri - Kansas City, USA. His research interests include solution-based processing of composite materials including sol-gel materials, nano-composite materials, and liquid crystalline materials and composites. Dirk J. Broer, is a Polymer Chemist specialized in polymer structuring and self-organizing polymer networks. This entails the development of polymers with new functionalities and integrating them into devices to meet industrial and societal challenges in the fields of sustainable energy, water-management, healthcare and personal comfort. Gregory P. Crawford, PhD, is President of Miami University, USA, and Professor of Physics. His research interests include liquid crystal and polymer materials for display and biotechnology applications. He is the editor of the first edition of Flexible Flat Panel Displays (2005).

Table of Contents

Series Editor's Foreword xv List of Contributors xvii 1 Introduction 1
Darran R. Cairns, Gregory P. Crawford, and Dirk J. Broer 1.1 Toward Flexible Mobile Devices 1 1.2 Flexible Display Layers 2 1.3 Other Flexible Displays and Manufacturing 2 2 Engineered Films for Display Technology 5
W.A. MacDonald 2.1 Introduction 5 2.2 Factors Influencing Film Choice 5 2.2.1 Application Area 5 2.2.2 Physical Form/Manufacturing Process 6 2.2.3 Film Property Set 7 2.2.3.1 Polymer Type 7 2.2.3.2 Optical Clarity 9 2.2.3.3 Birefringence 10 2.2.3.4 The Effect of Thermal Stress on Dimensional Reproducibility 10 2.2.3.5 Low-bloom Films 11 2.2.3.6 Solvent and Moisture Resistance 12 2.2.3.7 The Effect of Mechanical Stress on Dimensional Reproducibility 16 2.2.3.8 Surface Quality 18 2.3 Summary of Key Properties of Base Substrates 19 2.4 Planarizing Coatings 21 2.5 Examples of Film in Use 23 2.6 Concluding Remarks 24 Acknowledgments 25 3 Liquid Crystal Optical Coatings for Flexible Displays 27
Owain Parri, Johan Lub, and Dirk J. Broer 3.1 Introduction 27 3.2 LCN Technology 27 3.3 Thin-film Polarizers 29 3.3.1 Smectic Polarizers 29 3.3.2 Cholesteric Polarizers 32 3.4 Thin-film Retarders 34 3.4.1 Reactive Mesogen Retarders 35 3.4.2 Chromonic Liquid Crystal-based Retarders 37 3.4.3 Liquid Crystal Alignment and Patterned Retarders 37 3.5 Color Filters 41 3.6 Conclusion 43 4 Large Area Flexible Organic Field-effect Transistor Fabrication 47
Zachary A. Lamport, Marco Roberto Cavallari, and Ioannis Kymissis 4.1 Introduction 47 4.2 Substrates 48 4.3 Photolithography 49 4.4 Printing for Roll-to-roll Fabrication 52 4.4.1 Inkjet Printing 52 4.4.2 Gravure and Flexographic Printing 55 4.4.3 Screen Printing 56 4.4.4 Aerosol Jet Printing 56 4.4.5 Contact Printing 58 4.4.6 Meniscus Dragging 60 4.5 Conclusions 62 5 Metallic Nanowires, Promising Building Nanoblocks for Flexible Transparent Electrodes 67
Jean-Pierre Simonato 5.1 Introduction 67 5.2 TEs Based on Metallic Nanowires 68 5.2.1 Metallic Nanowires, New Building Nanoblocks 68 5.2.2 Random Network Fabrication 69 5.2.3 Optical Characterization 70 5.2.4 Electrical Characterization 71 5.2.5 Mechanical Aspect 73 5.3 Application to Flexible Displays 73 5.3.1 Touch Screens 73 5.3.2 Light-emitting Diodes Displays 74 5.3.3 Electrochromic Flexible Displays 76 5.3.4 Other Displays 77 5.4 Conclusions 78 6 Optically Clear Adhesives for Display Assembly 85
Albert I. Everaerts 6.1 Introduction 85 6.2 OCA Definition and General Performance Specifications 86 6.3 Application Examples and Challenges 89 6.3.1 Outgassing Tolerant Adhesives 90 6.3.2 Anti-whitening Adhesives 91 6.3.3 Non-corrosive OCAs 92 6.3.4 Compliant OCAs for High Ink-step Coverage and Mura-free Assembly of LCD Panels 94 6.3.5 Reworkable OCAs 102 6.3.6 Barrier Adhesives 103 6.4 Summary and Remaining Challenges 104 7 Self-healing Polymer Substrates 107
Progyateg Chakma, Zachary A. Digby, and Dominik Konkolewicz 7.1 Introduction 107 7.2 General Classes of Self-healing Polymers 108 7.2.1 Types of Dynamic Bonds in Self-healing Polymers 109 7.2.2 Supramolecularly Crosslinked Self-healing Polymers 109 7.2.2.1 Hydrogen Bonding 110 7.2.2.2 π–π Stacking 110 7.2.2.3 Ionic Interactions 111 7.2.3 Dynamic-covalently Crosslinked Self-healing Polymers 111 7.2.3.1 Cycloaddition Reactions 111 7.2.3.2 Disulfides-based Reversible Reactions 112 7.2.3.3 Acylhydrazones 113 7.2.3.4 Boronate Esters 113 7.3 Special Considerations for Flexible Self-healing Polymers 114 7.4 Incorporation of Electrically Conductive Components 115 7.4.1 Metallic Conductors 115 7.4.2 Conductive Polymers 116 7.4.3 Carbon Materials 118 7.4.4 Polymerized Ionic Liquids 119 7.5 Additional Possibilities Enabled by Three-dimensional Printing 119 7.6 Concluding Remarks 121 8 Flexible Glass Substrates 129
Armin Plichta, Andreas Habeck, Silke Knoche, Anke Kruse, Andreas Weber, and Norbert Hildebrand 8.1 Introduction 129 8.2 Display Glass Properties 129 8.2.1 Overview of Display Glass Types 129 8.2.2 Glass Properties 130 8.2.2.1 Optical Properties 130 8.2.2.2 Chemical Properties 130 8.2.2.3 Thermal Properties 131 8.2.2.4 Surface Properties 132 8.2.2.5 Permeability 133 8.3 Manufacturing of Thin "Flexible'' Glass 134 8.3.1 Float and Downdraw Technology for Special Glass 134 8.3.2 Limits 135 8.3.2.1 Thickness Limits for Production 135 8.3.2.2 Surface Quality Limits for Production 136 8.4 Mechanical Properties 137 8.4.1 Thin Glass and Glass/Plastic Substrates 137 8.4.2 Mechanical Test Methods for Flexible Glasses 137 8.5 Improvement in Mechanical Properties of Glass 140 8.5.1 Reinforcement of Glass Substrates 140 8.5.1.1 Principal Methods of Reinforcement 141 8.5.1.2 Materials for Reinforcement Coatings 141 8.6 Processing of Flexible Glass 142 8.6.1 Cleaning 143 8.6.2 Separation 143 8.7 Current Thin Glass Substrate Applications and Trends 144 8.7.1 Displays 145 8.7.2 Touch Panels 145 8.7.3 Sensors 145 8.7.4 Wafer-level Chip Size Packaging 146 9 Toward a Foldable Organic Light-emitting Diode Display 149
Meng-Ting Lee, Chi-Shun Chan, Yi-Hong Chen, Chun-Yu Lin, Annie Tzuyu Huang, Jonathan HT Tao, and Chih-Hung Wu 9.1 Panel Stack-up Comparison: Glass-based and Plastic-based Organic Light-emitting Diode 149 9.1.1 Technology for Improving Contrast Ratio of OLED Display 151 9.2 CF–OLED for Achieving Foldable OLED Display 153 9.2.1 Mechanism of the AR coating in CF–OLED 154 9.2.2 Optical Performance of CF–OLED 155 9.3 Mechanical Performance of CF–OLED 157 9.3.1 Bi-directional Folding Performance and Minimum Folding Radius of SPS Cf–oled 159 9.4 Touch Panel Technology of CF–OLED 160 9.5 Foldable Application 162 9.5.1 Foldable Technology Summary 162 9.5.1.1 Polymer Substrates and Related Debonding Technology 162 9.5.1.2 Alternative TFT Types to LTPS 162 9.5.1.3 Encapsulation Systems to Protect Devices against Moisture 163 9.5.2 Novel and Next-generation Display Technologies 163 10 Flexible Reflective Display Based on Cholesteric Liquid Crystals 167
Deng-Ke Yang, J. W. Shiu, M. H. Yang, and Janglin Che 10.1 Introduction to Cholesteric Liquid Crystal 167 10.2 Reflection of CLC 169 10.3 Bistable CLC Reflective Display 171 10.4 Color Design of Reflective Bistable CLC Display 173 10.4.1 Mono-color Display 173 10.4.2 Full-color Display 173 10.5 Transitions between Cholesteric States 175 10.5.1 Transition from Planar State to Focal Conic State 175 10.5.2 Transition from Focal Conic State to Homeotropic State 177 10.5.3 Transition from Homotropic State to Focal Conic State 177 10.5.4 Transition from Homeotropic State to Transient Planar State 178 10.5.5 Transition from Transient Planar State to Planar State 179 10.6 Driving Schemes 181 10.6.1 Response to Voltage Pulse 181 10.6.2 Conventional Driving Scheme 183 10.6.3 Dynamic Driving Scheme 183 10.6.4 Thermal Driving Scheme 185 10.6.5 Flow Driving Scheme 186 10.7 Flexible Bistable CLC Reflective Display 187 10.8 Bistable Encapsulated CLC Reflective Display 188 10.9 Production of Flexible CLC Reflective Displays 189 10.9.1 Color e-Book with Single-layered Structure 191 10.9.2 Roll-to Roll E-paper and Applications 195 10.10 Conclusion 202 11 Electronic Paper 207
Guofu Zhou, Alex Henzen, and Dong Yuan 11.1 Introduction 207 11.2 Electrophoretic Display 210 11.2.1 Development History and Working Principle 210 11.2.2 Materials 212 11.2.2.1 Colored Particles/Pigments 212 11.2.2.2 Capsule Shell Materials 213 11.2.2.3 Suspending Medium (Mobile Phase) 213 11.2.2.4 Charge Control Agents 213 11.2.2.5 Stabilizers 213 11.2.3 Device Fabrication 214 11.2.4 Flexible EPD 215 11.3 Electrowetting Displays 216 11.3.1 Development History and Working Principle 216 11.3.2 Materials 218 11.3.2.1 Absorbing (Dyed) Hydrophobic Liquid 218 11.3.3 Device Fabrication 220 11.3.4 Flexible EWD 221 11.4 Other E-paper Display Technologies and Feasibility of Flexibility 222 11.4.1 Pcd 222 11.4.2 Lpd 223 11.5 Cholesteric (Chiral Nematic) LCDs 224 11.6 Electrochromic Displays 224 11.7 MEMS Displays 226 12 Encapsulation of Flexible Displays: Background, Status, and Perspective 229
Lorenza Moro and Robert Jan Visser 12.1 Introduction 229 12.2 Background 230 12.3 Multilayer TFE Technology 234 12.3.1 Multilayer Approach 234 12.3.2 Inorganic Layer Deposition Techniques 237 12.3.3 Organic Layer Deposition Techniques 238 12.4 Current Technology Implementation 242 12.5 Future Developments 246 12.6 Conclusions 249 Acknowledgments 250 13 Flexible Battery Fundamentals 255
Nicholas Winch, Darran R. Cairns, and Konstantinos A. Sierros 13.1 Introduction 255 13.2 Structural and Materials Aspects 256 13.2.1 Shape 257 13.2.2 One-dimensional Batteries 257 13.2.3 Two-dimensional Planar Batteries 258 13.2.4 Solid versus Liquid Electrolyte 259 13.2.5 Carbon Additives 259 13.3 Examples of Flexible Batteries 260 13.4 Future Perspectives 266 14 Flexible and Large-area X-ray Detectors 271
Gerwin Gelinck 14.1 Introduction 271 14.2 Direct and Indirect Detectors 272 14.3 Thin-film Photodiode Sensors for Indirect-conversion Detectors 273 14.3.1 Performance Parameters 273 14.3.2 Photodiode Materials on Plastic Substrates 275 14.3.2.1 Amorphous Silicon 275 14.3.2.2 Organic Semiconductor Materials 275 14.4 TFT Array 277 14.4.1 Pixel Architecture and Transistor Requirements 277 14.4.2 Flexible Transistor Arrays 278 14.5 Medical-grade Detector 282 14.6 Summary and Outlook 283 15 Interacting with Flexible Displays 287
Darran R. Cairns and Anthony S. Weiss 15.1 Introduction 287 15.2 Touch Technologies in Non-Flexible Displays 287 15.2.1 Resistive Touch Sensors 287 15.2.2 4-Wire Resistive 288 15.2.3 5-Wire Resistive 289 15.2.4 Capacitive Sensing 290 15.2.5 Surface Capacitive 291 15.2.6 Projected Capacitive 291 15.2.7 Infrared Sensing 293 15.2.8 Surface Acoustic Wave 293 15.2.9 Bending Wave Technologies 294 15.3 Touch Technologies in Flexible Displays 294 15.4 Summary 299 16 Mechanical Durability of Inorganic Films on Flexible Substrates 301
Yves Leterrier 16.1 Introduction 301 16.2 Flexible Display Materials 302 16.2.1 Property Contrast between Coating and Substrate Materials 302 16.2.2 Determination of Mechanical Properties of Inorganic Coatings 302 16.3 Stress and Strain Analyses 304 16.3.1 Intrinsic, Thermal, and Hygroscopic Stresses and Strains 304 16.3.2 Strain Analysis of Multilayer Films under Bending 307 16.3.3 Critical Radius of Curvature 308 16.4 Failure Mechanics of Brittle Films 309 16.4.1 Damage Phenomenology under Tensile and Compressive Loading 309 16.4.2 Experimental Methods 310 16.4.3 Fracture Mechanics Analysis 311 16.4.4 Role of Internal Stresses 312 16.4.5 Influence of Film Thickness on Critical Strain 312 16.5 Durability Influences 313 16.5.1 Influence of Temperature 313 16.5.2 Fatigue 314 16.5.3 Corrosion 315 16.6 Toward Robust Layers 317 16.7 Final Remarks 317 Acknowledgments 318 Nomenclature 318 17 Roll-to-roll Production Challenges for Large-area Printed Electronics 325
Dr. Grzegorz Andrzej Potoczny 17.1 Introduction 325 17.2 Infrastructure 327 17.3 Equipment 328 17.4 Materials 329 17.5 Processing 331 17.6 Summary 334 18 Direct Ink Writing of Touch Sensors and Displays: Current Developments and Future Perspectives 337
Konstantinos A. Sierros and Darran R. Cairns 18.1 Introduction 337 18.2 DIW and Ink Development 338 18.3 Applications of DIW for Displays and Touch Sensors 343 18.4 Future Challenges and Opportunities 347 19 Flexible Displays for Medical Applications 351
Uwadiae Obahiagbon, Karen S. Anderson, and Jennifer M. Blain Christen 19.1 Introduction 351 19.1.1 Flexible Displays in Medicine 351 19.1.2 A Brief Historical Perspective 351 19.1.3 Application of Flexible Displays for Biochemical Analysis 352 19.1.4 OLEDs and Organic Photodiodes as Optical Excitation Sources and Detectors 352 19.1.5 Device Integration 354 19.1.6 Fluorescence, Photoluminescence Intensity, and Decay-time Sensing 355 19.2 Flexible OLEDs for Oxygen Sensors 356 19.3 Glucose Sensing Using Flexible Display Technology 358 19.4 POC Disease Diagnosis and Pathogen Detection Using Flexible Display Optoelectronics 359 19.5 Flexible Display Technology for Multi-analyte Sensor Array Platforms 364 19.5.1 Integrated LOC and Flexible Display Devices 364 19.5.2 Multiplexed Sensor Platforms 364 19.6 Medical Diagnostic Displays 366 19.7 Wearable Health Monitoring Devices Based on Flexible Displays 366 19.7.1 Monitoring Vital Signs Using Flexible Display Technology 367 19.7.2 Flexible Display Technology for Phototherapy 369 19.7.3 Smart Clothing Using Flexible Display Technology 370 19.8 Competing Technologies, Challenges, and Future Trends 371 19.9 Conclusion 372 Acknowledgment 373 Conflicts of Interest 373 Index 379

Details ISBN1118751116 Series Wiley Series in Display Technology ISBN-10 1118751116 ISBN-13 9781118751114 Format Hardcover Author Dirk J. Broer DEWEY 621.3815422 Language English NZ Release Date 2023-03-23 US Release Date 2023-03-23 UK Release Date 2023-03-23 Edited by Gregory P. Crawford Pages 416 Publisher John Wiley & Sons Inc Edition Description 2nd edition Year 2023 Edition 2nd Publication Date 2023-03-23 Imprint John Wiley & Sons Inc Place of Publication New York Country of Publication United States Replaces 9780470870488 Audience Professional & Vocational AU Release Date 2023-06-14

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  • Condition: New
  • Format: Hardcover
  • Language: English
  • ISBN-13: 9781118751114
  • Author: Gregory P. Crawford, Darran R. Cairns, Dirk J. Broer
  • Type: NA
  • Book Title: Flexible Flat Panel Displays
  • Publication Name: NA
  • ISBN: 9781118751114

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