Organic and printed electronics: fundamentals and applications
Gespeichert in:
| Format: | Buch |
|---|---|
| Sprache: | English |
| Veröffentlicht: |
Singapore
Pan Stanford Publishing
[2016]
|
| Schlagworte: | |
| Online-Zugang: | Inhaltsverzeichnis |
| Beschreibung: | XXII, 580 Seiten Illustrationen, Diagramme |
| ISBN: | 9789814669740 9789814669757 |
Internformat
MARC
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| 245 | 1 | 0 | |a Organic and printed electronics |b fundamentals and applications |c edited by Giovanni Nisato, Donald Lupo, Simone Ganz |
| 264 | 1 | |a Singapore |b Pan Stanford Publishing |c [2016] | |
| 300 | |a XXII, 580 Seiten |b Illustrationen, Diagramme | ||
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| 700 | 1 | |a Ganz, Simone |e Sonstige |4 oth | |
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Datensatz im Suchindex
| _version_ | 1804176427483922432 |
|---|---|
| adam_text | Organic and
Printed Electronics
Fundamentals and Applications
edited by
Giovanni Nisato
Donald Lupo
Simone Ganz
Pan Stanford
Publishing
Contents
Preface xxi
Acknowledgments xxiii
1 Introduction to Organic and Printed Electronics 1
Giovanni Nisato, Donald Lupo, and Simone Ganz
1 1 The Field and the Goals of the Book 1
1 2 Contents and Book Organization 3
121 Description of the Chapters 5
2 Organic Semiconducting Materials 11
Mattias Andersson and Mats Fahlman
2 1 Introduction 11
2 2 From Chemical Bonds to Bands 15
2 3 Charge Injection and Transport 25
2 4 Optical Properties 38
2 5 Short Summary 42
Exercises 44
Suggested Readings 45
3 Printing and Processing Techniques 47
Simone Ganz, Hans Martin Sauer, Simon Weißenseel,
Julian Zembron, Robert Tone, Edgar Dörsam,
Moritz Schaefer, and Malte Schulz-Ruthenberg
3 1 Introduction 47
3 2 Fluid Formulation: Making Functional
Materials Printable 48
321 Creating Printing Fluids 49
322 Properties of Printing Fluids 49
3221 Viscosity of printing fluids 49
3222 Surface tension 52
3223 Fluid parameters and
printing techniques 53
323 Choosing a Solvent 54
3231 Polymer materials 54
vi I Contents
3232 Small molecules 56
3233 Colloidal dispersions 57
324 Fluid Dynamics of Printed Liquid
Films 58
3241 Wetting properties 3242 Dynamic phenomena: 59
The lubrication limit 59
3243 Surface-leveling time 61
3244 Marangoni effect 62
Substeps of Printing 63
331 Substep 0: Conditioning (of the Printing Fluid and Substrate
Pretreatment) 64
332 Substep 1: Fluid Acquisition 65
333 Substep 2: Predosing 66
334 Substep 3: Dosing 66
335 Substep 4: Transfer 66
336 Substep 5: Relaxation 67
337 Substep 6: Drying (Curing, Sintering) 68
Printing Processes 69
341 Flexography 71
3411 History and facts 71
3412 Principle of flexography 3413 Characteristics of print 71
equipment 72
3414 Process description 3415 Experiences from a 74
practical point of view 3416 Applications and current 75
research 77
342 Gravure Printing 77
3421 History and facts 77
3422 Principle of rotogravure 3423 Characteristics of print 77
equipment 78
3424 Process description 3425 Experiences from a 80
practical point of view 81
Contents vii
3426 Applications and current
research 82
343 Screen Printing 82
3431 History and facts 82
3432 Principle of screen printing 82
3433 Characteristics of print
equipment 84
3434 Process description 85
3435 Experiences from a practical
point of view 86
3436 Applications and current
research 87
344 Inkjet Printing 88
3441 History and facts 88
3442 Principle of inkjet 88
3443 Characteristics of print
equipment 89
3444 Process description 90
3445 Experiences from a
practical point of view 91
3446 Applications and current
research 92
345 Coating Techniques 93
3451 Spin coating 93
3452 Slot-die coating 94
3453 Blade coating 95
346 Laser Patterning of Thin Films 96
347 Additional Coating and Structuring
Techniques 99
3471 Evaporation deposition 99
3472 Photolithography 99
3473 Pad printing 100
3474 Offset printing 100
3475 Nanoimprint lithography 101
3476 Microcontact printing 101
3 4 77 Aerosol jet printing 101
3 47 8 Laser transfer printing 102
viii Contents
3479 Xerography 102
347 10 Plasma printing 102
347 11 Hot embossing 103
3 5 Conclusions 103
Glossary of Printing Terms 105
Exercises 109
Suggested Readings 112
Characterization Techniques for Printed Electronics 117
Robert Tone and Simone Ganz
4 1 Viscosities and Surface Tensions 118
411 Measuring Viscosity 118
412 Measuring Surface Tensions 120
4 2 Structural Characterization 122
421 Lateral Extent 123
422 Layer Thickness 123
423 Morphology 128
4 3 Structural Measurements 129
431 Optical Methods 130
432 Tactile Methods 132
4 4 Electrical Properties of Printed Layers
and Their Characterization 135
4 5 Conclusions 138
Exercises 140
Suggested Readings 142
Organic Field-Effect Transistors 147
Henrique Leonel Gomes
5 1 Introduction 148
5 2 Field-Effect Transistors 149
521 Basic Operation of a TFT 150
522 OTFT Architectures 152
5 3 The Ideal Thin-Film Transistor 154
531 Threshold Voltage and Subthreshold
Current of Ideal TFTs 158
5 4 Nonideal Characteristics 159
541 Parameter Extraction 163
542 Operational Stability 164
543 Variability 165
Contents I ix
5431 Experimental procedures
and methodologies to
study variability 166
5432 Limitations of test
structures 167
5 5 Electronic Traps in TFTs 551 TFT Nonideal Characteristics as 170
a Tool to Measure Traps 172
5511 Extraction of localized
charge density from the TFT transfer characteristics 173
5512 Temperature dependence
of the charge transport 174
552 Electrical Techniques to Study Traps 178
5521 Small-signal impedance
spectroscopy 179
5522 Thermally stimulated
currents 182
5 6 Circuits and Systems 185
561 Inverter Circuits 186
562 Circuit Characterization 188
563 Ring Oscillators 189
564 Summary 189
5 7 TFTs for Biomedical Applications 190
571 Floating Gate Method 572 Organic Thin-Film Transistors as 190
Gas Sensors 192
573 Changes in the Dielectric Layer 193
5 8 Conclusions 194
Exercises 196
Suggested Readings 197
The Basics of Organic Light-Emitting Diodes Mathias Mydlak and Daniel Volz 199
6 1 Introduction 199
611 History 201
6111 First observation of
electroluminescence in the early 20th century 201
6112 Inorganic light-emitting
diodes 201
6113 Electroluminescence in
organic matter 202
6114 The first OLEDs with Alq3 203
6 2 Structure of an OLED 204
621 Basic Device Structure 204
622 Charge and Energy Transfer in OLED
Devices 206
623 Relevant Physical Parameters for
OLED Materials 209
6 3 Emitter Concepts 210
631 General Differences between the
Different Concepts 210
632 Fluorescence 212
633 Phosphorescence 214
634 Singlet Harvesting/TADF 214
635 Host Materials 215
6 4 Additional Aspects 216
641 Encapsulation 216
642 Flexible Substrates 217
643 Multilayer Architectures 218
6431 Substrate and electrode
materials 218
6432 Charge transport materials 219
6433 Other layers for improved
device performance 221
6444 White-light OLEDs 222
6445 Outcoupling 223
6 5 Outlook and Challenges 224
Exercises 226
Suggested Readings 228
Organic Solar Cells 229
Claudia Hoth, Achilleas Savva, and Stelios Choulis
7 1 Basic Principles of Organic Solar Cells 230
7 2 Manufacturing and Production Technologies 233
721 Blade Coating 233
722 Spray Coating 234
723 Inkjet Printing 235
Contents I xi
724 Gravure Printing 235
725 Slot-Die Coating 236
726 Screen Printing 236
727 Roll-to-Roll Manufacturing 236
7 3 Materials of Organic Solar Cells 237
731 Interfacial and Intermediate Layers 237
7311 PEDOT:PSS and other
highly conductive polymers 237
732 Nanoparticles and Nanotubes 238
733 Photoactive Materials 239
734 Electrodes 243
7341 Physical Vapor Deposition
of Top Electrodes 243
7342 Printable Materials for
Top Electrodes 244
7343 Bottom Electrodes 245
735 Encapsulation Materials 246
7 4 Solar Cell Device Architectures 247
7 5 Electrical Characterization of Solar Cells and Modules 251
7 6 Lifetime and Degradation of Organic Solar Cells 255
7 7 Application Examples 258
7 8 Summary and Outlook 260
Exercises 261
Suggested Readings 262
Printable Power Storage: Batteries and Supercapacitors Sampo Tuukkanen and Martin Krebs 265
8 1 Introduction 265
8 2 Principles of a Cell/Battery 266
821 Voltage 266
822 Charge Capacity 267
823 Internal Resistance/Impedance 267
824 Pulse Load Capability 268
825 Cycle Life 268
826 Cell versus Battery 268
827 Battery as an Energy Source 268
8 3 Principles of a Supercapacitor 270
831 Conventional Capacitors 270
xii I Contents
832 Supercapacitor Structure 270
833 Supercapacitor Parameters 271
834 Electrical Characterization of
Supercapacitors 272
835 Comparison of Supercapacitor and
Battery 275
8 4 Printed Battery Architectures 276
841 Stacked Assembly 276
842 Co-Planar Assembly 279
843 Liquid Electrolyte 281
844 Solid Electrolyte 282
845 Battery Materials 282
8 5 Printed Supercapacitor Architectures 284
851 Printable High-Surface Area
Materials 284
852 Printable Supercapacitors 284
8 6 Challenges of Printed Electrochemical
Systems 286
Exercises 288
Suggested Readings 289
9 Encapsulation of Organic Electronics 293
John Fahlteich, Andrea Glawe, and Paolo Vacca
9 1 Introduction to Encapsulation 293
9 2 Types of Encapsulation 295
921 Glass/Glass Encapsulation 296
922 Lamination of Barrier Films 298
923 (Direct) Thin-Film Encapsulation 299
9 3 Introduction to Permeation in Solids and
Thin Films 300
931 Fick s First Law of Diffusion 301
932 Defect Models for Permeation in
Thin-Film Encapsulation 304
9321 Classification of defects 304
9322 Models to describe gas
permeation at layer defects 305
9323 Defects in multilayer systems 307
933 Time Dependence of Permeation 307
934 Influence of Ambient Conditions on
the Gas Permeation Rates in an
Encapsulation System 309
Contents I xiii
9341 Partial pressure of the
permeate gas 310
9342 Temperature dependence
of permeation 311
9 4 Encapsulation Substrates and Materials 312
941 Encapsulation Substrates 312
9411 Polymer substrates for
encapsulation 312
9412 Ultrathinglass 315
942 Thin-Film Encapsulation Materials
and Processes 316
9421 Thermal evaporation 316
9422 Plasma-enhanced chemical
vapor deposition 317
9423 Magnetron sputtering 320
9424 Atomic layer deposition 324
9425 Summary of single-layer
encapsulation materials 326
943 Multilayer Thin-Film Encapsulation
Systems 328
944 Encapsulation Sealants and Barrier
Adhesives 332
945 Passive Adhesives 333
946 Active Adhesives and Getters 335
947 Types of Adhesives with Respect to
Their Processing 340
9471 UV-curable adhesives 340
9472 Pressure-sensitive adhesives 342
9473 Hot-melt adhesives 343
9 5 Encapsulation Processing 345
951 Barrier Film and Device Preparation 345
9511 Clean atmosphere 345
9512 Inert atmosphere 346
952 Application of Adhesives 346
9521 Coating and printing
techniques 346
9522 Lamination processing 348
953 Substrate- and Device-Handling
Requirements 349
xiv I Contents
9531 Wet-coating processes 349
9532 Encapsulation processes 350
9 6 Conclusions 350
Exercises 353
Suggested Readings 354
10 Printed Sensors and Sensing Systems 355
Giorgio Mattana and Danick Briand
10 1 Introduction 355
10 2 Sensor Fundamentals 357
10 2 1 Definition and Classification 357
10 2 2 Sensor Characteristics 359
10 3 Sensors Working Principles and Examples
of Printed Sensors 364
10 3 1 Resistive Sensors 364
10 311 Thermal resistive sensors
(thermistors] 365
10 312 Chemiresistive
semiconductor-based gas
sensors 366
10 313 Piezoresistive sensors 367
10 3 2 Electrochemical Sensors 369
10 3 3 Capacitive Sensors 370
10 3 4 Acoustic Wave Sensors 375
10 3 5 Field-Effect Transistor Sensors 376
10 3 6 Optical Sensors 378
10 3 7 Other Typologies of Sensors 381
10 371 Accelerometers 381
10 372 Biosensors 382
10 373 Ionic and pH sensors 383
10 4 Integration of Printed Sensors into Systems 383
10 5 Conclusions and Future Perspectives 387
Exercises 389
Suggested Readings 392
11 Hybrid Printed Electronics 397
Marc Koetse, EdsgerSmits, Erik Rubingh,
Pit Teunissen, Roel Küsters, Robert Abbel,
and Jemen van den Brand
11 1 Introduction 397
Contents
11 2 Basic Technologies 399
11 2 1 Basic Process Flow 399
11 3 Printing Circuitry 400
11 3 1 Screen Printing 11 3 2 Inkjet Printing and Flexogravure 401
Printing 402
11 3 3 Substrates 403
11 3 4 Inks 404
11 3 5 Curing and Sintering 406
11 3 6 Alternatives to Direct Printing 407
11 4 Assembly 408
11 4 1 Isotropic Conductive Adhesive 409
11 4 2 Anisotropic Conductive Adhesives 410
11 4 3 Pick and Place 411
11 4 4 Assembly of Components in Systems 412
11 4 5 Foil-to-Foil Lamination 412
11 4 6 Reliability 414
11 5 Finishing 417
11 6 Applying the Technology: A Case Study 418
11 6 1 Flexsmell Label 418
11 6 2 Total Cost of Ownership 420
11 7 Examples and Challenges of Realized Product Prototypes 422
11 8 Conclusions 423
Exercises 426
Suggested Readings 428
Environmental Aspects of Printable and Organic Electronics 429
Dirk Hengevoss, Yannick-Serge Zimmermann, Nadja Brun, Christoph Hugi, Markus Lenz, Philippe F -X Corvini, and Karl Fent
12 1 Introduction 12 1 1 Environmental Issues of Established 429
Electronic Technologies 12 111 Raw material sourcing: 431
Indium 431
12 112 Potential risks of new
forms of raw materials: Nanomaterials 432
xvi
Contents
12 113 Production issues energy and material efficiency: Electronic-grade silicon and high-vacuum-evaporation process 433
12 114 Use-phase energy and lifetime issue: Communication and multimedia products 434
12 115 End-of-life issues: Disposal of electronic products 435
Rationale for an Environmental Assessment
of OPE 435
12 2 1 Potentially Arising Environmental
Issues of OPE 436
12 211 Raw material sourcing: Purchasing of bulk chemicals from developing countries 436
12 212 Production issues: Use of solvents and resource efficiency 437
12 213 Use phase: UV blocker 438
12 214 End-of-life disposal: PET and nanotoxicology 439
Case Study of OPE: Organic Photovoltaics 440
12 3 1 Description of Flexible OPV
P3HT:PCBM (2 8% Efficiency) 441
12 3 2 Life Cycle Assessment 441
12 321 Methodological framework of a life cycle assessment 441
12 322 Life cycle assessment of OPV and established PV 448
12 3 3 Fate Studies 452
12 331 Fate of OPV modules during and after the use phase 452
12 332 Leaching and fate of inorganic OPV compounds to the environment 454
Contents I xvii
12 333 Leaching and fate of organic
OPV compounds to the
environment 457
12 3 4 Ecotoxicity Studies 458
12 341 Toxic potential of single
OPV components 459
12 342 Methodology: General
description of gene
expression analysis and
laser ablation 463
12 343 Example for toxicity
studies: Assessment of nZnO 465
12 3 5 Concluding Assessment of OPV
Environmental Impact 469
Exercises 470
Suggested Readings 471
13 Innovation Management 473
Ambahn Khan, Silvia Massini, and Chris Rider
13 1 Organic and Printed Electronics:
An Emerging Technology 473
13 2 Introduction to the Organic and Printed
Electronics Sector 476
13 2 1 Allow Time for Big Materials
Performance Gains 477
13 2 2 The Incumbent Technology Is Still
Evolving 478
13 2 3 The Challenges of Scale-Up Add Cost 478
13 2 4 All System Components Must Be
Ready before Product Sales 479
13 2 5 Multifunctional Systems Are Needed
for Some Applications 479
13 2 6 Complexity in the Value Chain 480
13 3 Innovation Processes and Management 481
13 3 1 Innovation Processes: From Linear
to Systemic Models 481
13 3 2 Types of Innovation over the
Industrial Life Cycle 483
13 4 Developing Innovation through
Collaboration: Role of the Ecosystem 486
xviii I Contents
13 4 1 Challenges of Innovating within
an Ecosystem 491
13 5 Considerations for Commercialization 492
13 5 1 Uncertainty and Market Dynamics 493
13 5 2 Testing Business Assumptions 493
13 5 3 Developing Dynamic Capabilities 494
13 5 4 Supplying a System 495
13 5 5 Business Model Selection 497
13 5 6 Intellectual Property 499
13 5 7 Maximizing Resources 500
13 571 Networks 500
13 572 Finance 501
13 5 8 Public Policy Initiatives 501
13 6 Conclusions 503
Exercises 505
Suggested Readings 506
Market Perspectives and Road Map for Organic Electronics Donald Lupo, Wolfgang Clemens, Sven Breitung, and Klaus Hecker 509
14 1 Introduction: What Is Road Mapping? 510
14 2 Road Mapping for Organic Electronics 511
14 3 Application Road Maps 512
14 3 1 OLED Lighting 513
14 3 2 Organic Photovoltaics 515
14 3 3 Flexible Displays 517
14 3 4 Electronics and Components 519
14 3 5 Integrated Smart Systems 522
14 4 Technology Road Map 524
14 5 Overall Road Map 529
14 6 Conclusions 534
Exercises 535
Suggested Readings 536
Experiments 537
Peter HJM Ketelaars, Jan P C Bernards,
and Martijn H A van Dongen
15 1 Organometallic Light-Emitting Diode
537
Contents xix
15 1 1 Synthesis of tris(2,2 - bipyridine)
Ruthenium [II] Tetrafluoroborate
15 1 2 Characterization of the Synthesis
Material
15 1 3 Constructing a Simple Three-Layer
OLED
15 1 4 Characterization of the OLED by
Electrical Current, Electrical
Potential, and Light Emission
15 2 RFID Tags
15 2 1 Materials
15 3 Applications of pPlasma Printing
15 3 1 Changing Wetting Behavior and
Functionalizing a Surface
15 4 Manufacturing a Piezo Single-Nozzle
Drop-on-Demand Device
15 4 1 Drop-on-Demand Device
15 4 2 Simulation
Suggested Readings
Abbreviations
Index
539
539
542
542
545
550
551
552
555
557
560
561
563
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| spelling | Organic and printed electronics fundamentals and applications edited by Giovanni Nisato, Donald Lupo, Simone Ganz Singapore Pan Stanford Publishing [2016] XXII, 580 Seiten Illustrationen, Diagramme txt rdacontent n rdamedia nc rdacarrier Polymerelektronik (DE-588)7735306-7 gnd rswk-swf Polymerelektronik (DE-588)7735306-7 s DE-604 Nisato, Giovanni Sonstige oth Lupo, Donald Sonstige oth Ganz, Simone Sonstige oth HEBIS Datenaustausch application/pdf http://bvbr.bib-bvb.de:8991/F?func=service&doc_library=BVB01&local_base=BVB01&doc_number=029081476&sequence=000001&line_number=0001&func_code=DB_RECORDS&service_type=MEDIA Inhaltsverzeichnis |
| spellingShingle | Organic and printed electronics fundamentals and applications Polymerelektronik (DE-588)7735306-7 gnd |
| subject_GND | (DE-588)7735306-7 |
| title | Organic and printed electronics fundamentals and applications |
| title_auth | Organic and printed electronics fundamentals and applications |
| title_exact_search | Organic and printed electronics fundamentals and applications |
| title_full | Organic and printed electronics fundamentals and applications edited by Giovanni Nisato, Donald Lupo, Simone Ganz |
| title_fullStr | Organic and printed electronics fundamentals and applications edited by Giovanni Nisato, Donald Lupo, Simone Ganz |
| title_full_unstemmed | Organic and printed electronics fundamentals and applications edited by Giovanni Nisato, Donald Lupo, Simone Ganz |
| title_short | Organic and printed electronics |
| title_sort | organic and printed electronics fundamentals and applications |
| title_sub | fundamentals and applications |
| topic | Polymerelektronik (DE-588)7735306-7 gnd |
| topic_facet | Polymerelektronik |
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