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NANOMATERIALS FOR 2D AND 3D PRINTING

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9783527338191 ::  NANOMATERIALS FOR 2D AND 3D PRINTING
ISBN:

9783527338191

EditorialJOHN WILEY & SONS LTD.
Edicion:
Páginas:376
Idioma:INGLES
P.V.P.: 140,96 € + 4% IVA = 146,60 €
Dto 5% Ahorras 7,33 €
Importe final iva incl. 139,27 €
EN STOCK / ENVIO EN 8-10 DIAS

THE FIRST BOOK TO PAINT A COMPLETE PICTURE OF THE CHALLENGES OF PROCESSING FUNCTIONAL NANOMATERIALS FOR PRINTED ELECTRONICS DEVICES, AND ADDITIVE MANUFACTURING FABRICATION PROCESSES.
FOLLOWING AN INTRODUCTION TO PRINTED ELECTRONICS, THE BOOK FOCUSES ON VARIOUS FUNCTIONAL NANOMATERIALS AVAILABLE, INCLUDING CONDUCTING, SEMI–CONDUCTING, DIELECTRIC, POLYMERIC, CERAMIC AND TAILORED NANOMATERIALS. SUBSEQUENT SECTIONS COVER THE PREPARATION AND CHARACTERIZATION OF SUCH MATERIALS ALONG WITH THEIR FORMULATION AND PREPARATION AS INKJET INKS, AS WELL AS A SELECTION OF APPLICATIONS. THESE INCLUDE PRINTED INTERCONNECTS, PASSIVE AND ACTIVE MODULES, AS WELL AS SUCH HIGH–TECH DEVICES AS SOLAR CELLS, TRANSPARENT ELECTRODES, DISPLAYS, TOUCH SCREENS, SENSORS, RFID TAGS AND 3D OBJECTS. THE BOOK CONCLUDES WITH A LOOK AT THE FUTURE FOR PRINTED NANOMATERIALS.
FOR ALL THOSE WORKING IN THE FIELD OF PRINTED ELECTRONICS, FROM ENTRANTS TO SPECIALIZED RESEARCHERS, IN A NUMBER OF DISCIPLINES RANGING FROM CHEMISTRY AND MATERIALS SCIENCE TO ENGINEERING AND MANUFACTURING, IN BOTH ACADEMIA AND INDUSTRY.

LIST OF CONTRIBUTORS XIII 1 PRINTING TECHNOLOGIES FOR NANOMATERIALS 1
ROBERT ABBEL AND ERWIN R. MEINDERS 1.1 INTRODUCTION 1 1.2 INK FORMULATION STRATEGIES 4 1.3 PRINTING TECHNOLOGIES 6 1.3.1 INKJET PRINTING 7 1.3.2 LASER–INDUCED FORWARD TRANSFER 11 1.3.3 CONTACT PRINTING TECHNOLOGIES 13 1.3.4 PHOTOPOLYMERIZATION 17 1.3.5 POWDER BED TECHNOLOGY 19 1.4 SUMMARY AND CONCLUSIONS 20 REFERENCES 20 2 INKJET PRINTING OF FUNCTIONAL MATERIALS AND POST–PROCESSING 27
INGO REINHOLD 2.1 INTRODUCTION 27 2.2 INDUSTRIAL INKJET 28 2.3 POSTPROCESSING OF METAL–BASED INKS FOR CONDUCTIVE APPLICATIONS 30 2.3.1 MECHANISMS IN SOLID–STATE SINTERING 32 2.3.2 INFLUENCE OF DRYING AND WET SINTERING 34 2.3.3 THERMAL SINTERING 35 2.3.4 CHEMICAL SINTERING 35 2.3.5 PLASMA SINTERING 36 2.3.6 SINTERING USING ELECTROMAGNETIC FIELDS 37 2.4 CONCLUSION 42 REFERENCES 43 3 ELECTROLESS PLATING AND PRINTING TECHNOLOGIES 51
YOSI SHACHAM–DIAMAND, YELENA SVERDLOV, STAV FRIEDBERG, AND AVI YAVERBOIM 3.1 INTRODUCTION 51 3.2 ELECTROLESS PLATING OVERVIEW 54 3.2.1 ELECTROLESS PLATING BRIEF OVERVIEW 55 3.3 SEED LAYER PRINTING 57 3.4 ELECTROLESS PLATING ON PRINTED PARTS 57 3.4.1 METHODS AND APPROACHES 59 3.4.2 ELECTROLESS METAL INTEGRATION: EXAMPLES 60 3.5 SUMMARY AND CONCLUSIONS 63 REFERENCES 64 4 REACTIVE INKJET PRINTING AS A TOOL FOR IN SITU SYNTHESIS OF SELF–ASSEMBLED NANOPARTICLES 69
GHASSAN JABBOUR, MUTALIFU ABULIKAMU, HYUNG W. CHOI, AND HANNA HAVERINEN 4.1 INTRODUCTION TO REACTIVE INKJET PRINTING 69 4.2 RIJ OF SELF–ASSEMBLED AU NPS 70 4.3 PARAMETERS INFLUENCING THE GROWTH OF AU NPS 74 4.4 SIMPLIFYING THE APPROACH (SINGLE CARTRIDGE) USING SINGLE CARTRIDGE STEP 77 4.5 FURTHER PROGRESS TOWARD REDUCTION OF FABRICATION TIME (1 MIN) 77 4.6 CONCLUSION 79 REFERENCES 79 5 3D PRINTING VIA MULTIPHOTON POLYMERIZATION 83
MARIA FARSARI 5.1 MULTIPHOTON POLYMERIZATION 84 5.2 THE DIFFRACTION LIMIT 85 5.3 EXPERIMENTAL SETUP 86 5.4 MATERIALS FOR MPP 88 5.4.1 INTRODUCTION 88 5.4.2 PHOTOINITIATORS 88 5.4.3 ORGANIC PHOTOPOLYMERS 89 5.4.4 SU–8 90 5.4.5 HYBRID MATERIALS 90 5.4.6 APPLICATIONS 91 5.5 CONCLUSIONS 96 REFERENCES 96 6 HIGH SPEED SINTERING: THE NEXT GENERATION OF MANUFACTURING 107
ADAM ELLIS 6.1 THE NEED FOR THE NEXT GENERATION OF ADDITIVE MANUFACTURING 107 6.2 HIGH SPEED SINTERING 109 6.3 MACHINE SETUP & PARAMETER CONTROL 109 6.4 MATERIALS & PROPERTIES 112 6.5 HSS FOR HIGH–VOLUME MANUFACTURING 113 6.6 CASE STUDY: FROM ELITE TO HIGH STREET 115 6.7 OPENING THE SUPPLY CHAIN 115 6.8 THE FUTURE OF HSS AND THE BENEFITS OF INKJET 116 REFERENCES 116 7 METALLIC NANOINKS FOR INKJET PRINTING OF CONDUCTIVE 2D AND 3D STRUCTURES 119
ALEXANDER KAMYSHNY AND SHLOMO MAGDASSI 7.1 INTRODUCTION 119 7.2 METALLIC NANOINKS: REQUIREMENTS AND CHALLENGES 120 7.3 SYNTHESIS AND STABILIZATION OF METAL NPS FOR CONDUCTIVE NANOINKS 121 7.3.1 SYNTHESIS 121 7.3.2 STABILIZATION 122 7.4 FORMULATION OF CONDUCTIVE METALLIC NANOINKS 125 7.5 FORMATION OF 2D CONDUCTIVE STRUCTURES: PRINTING AND SINTERING 127 7.6 3D PRINTING OF CONDUCTIVE PATTERNS: FORMATION AND SINTERING 134 7.7 APPLICATIONS OF METALLIC INKJET NANOINKS IN PRINTED ELECTRONICS 135 7.7.1 RFID TAGS 136 7.7.2 THIN–FILM TRANSISTORS 136 7.7.3 ELECTROLUMINESCENT DEVICES AND LIGHT–EMITTING DIODES 136 7.7.4 TRANSPARENT CONDUCTIVE ELECTRODES 137 7.7.5 ORGANIC SOLAR CELLS 138 7.8 OUTLOOK 139 REFERENCES 140 8 GRAPHENE– AND 2D MATERIAL–BASED THIN–FILM PRINTING 161
JIANTONG LI, MAX C. LEMME, AND MIKAEL ÖSTLING 8.1 INTRODUCTION 161 8.2 PRINTING PROCEDURES 162 8.2.1 INK FORMULATIONS 162 8.2.2 JETTING AND PATTERNS 166 8.2.3 DRYING 166 8.2.4 POSTTREATMENTS 171 8.3 PERFORMANCE AND APPLICATIONS 172 8.3.1 TRANSPARENT CONDUCTORS 173 8.3.2 MICRO–SUPERCAPACITORS 173 8.3.3 PHOTODETECTORS 174 8.3.4 SOLAR CELLS 176 8.4 DISCUSSION AND OUTLOOK 177 ACKNOWLEDGMENTS 178 REFERENCES 178 9 INKJET PRINTING OF PHOTONIC CRYSTALS 183
MINXUAN KUANG AND YANLIN SONG 9.1 INTRODUCTION 183 9.2 INKJET PRINTING OF PHOTONIC CRYSTALS 184 9.2.1 PROCESS OF INKJET PRINTING 184 9.2.2 INKJET PRINTING OF FINE CONTROLLED PC DOTS AND LINES 186 9.3 APPLICATION OF PRINTING OF PHOTONIC CRYSTALS 196 9.3.1 PHOTONIC CRYSTAL PATTERNS 196 9.3.2 PRINTING PATTERNED MICROCOLLOIDAL CRYSTALS WITH CONTROLLABLE 3D MORPHOLOGY 199 9.3.3 INKJET–PRINTED PCS APPLIED IN VAPOR SENSORS 201 9.3.4 INKJET–PRINTED PCS APPLIED IN CHEMICAL DETECTION 201 9.4 OUTLOOK 203 REFERENCES 204 10 PRINTABLE SEMICONDUCTING/DIELECTRIC MATERIALS FOR PRINTED ELECTRONICS 213
SUNHO JEONG AND JOOHO MOON 10.1 INTRODUCTION 213 10.2 PRINTABLE MATERIALS FOR SEMICONDUCTORS 213 10.3 PRINTABLE MATERIALS FOR DIELECTRICS 219 10.4 CONCLUSIONS 223 REFERENCES 224 11 LOW MELTING POINT METAL OR ITS NANOCOMPONENTS AS FUNCTIONAL 3D PRINTING INKS 229
LEI WANG AND JING LIU 11.1 INTRODUCTION OF METAL 3D PRINTING 229 11.2 LOW MELTING POINT METAL INK 230 11.2.1 LIQUID METAL PRINTING INK 230 11.2.2 NANOLIQUID METAL 232 11.3 LIQUID–PHASE 3D PRINTING 234 11.3.1 FABRICATION SCHEME 234 11.3.2 FORMING PRINCIPLE OF METAL OBJECTS IN COOLING LIQUID 235 11.3.3 LIQUID–PHASE PRINTING OF METAL STRUCTURES 236 11.3.4 FACTORS AFFECTING THE PRINTING QUALITY 237 11.3.5 COMPARISON BETWEEN LIQUID–PHASE COOLING AND GAS–PHASE COOLING 238 11.3.6 VISION OF THE FUTURE LIQUID–PHASE PRINTING 240 ACKNOWLEDGMENT 241 REFERENCES 241 12 INKJET PRINTING OF CONDUCTING POLYMER NANOMATERIALS 245
EDWARD SONG AND JIN–WOO CHOI 12.1 INTRODUCTION 245 12.2 INKJET PRINTING OF POLYANILINE NANOMATERIALS 246 12.2.1 INTRODUCTION 246 12.2.2 CHEMICAL STRUCTURE, ELECTROCHEMICAL PROPERTIES, AND CONDUCTIVITY OF POLYANILINE 246 12.2.3 INKJET–PRINTED POLYANILINE NANOMATERIALS 249 12.2.4 APPLICATIONS OF INKJET–PRINTED POLYANILINE NANOMATERIALS 250 12.3 POLYPYRROLE 251 12.3.1 PROPERTIES AND SYNTHESIS OF POLYPYRROLE (PPY) NANOMATERIALS 251 12.3.2 INKJET PRINTING AND APPLICATIONS OF PPY NANOMATERIALS 254 12.4 POLYTHIOPHENE (PTH) AND POLY(3,4–ETHYLENEDIOXYTHIOPHENE) (PEDOT) 258 12.4.1 PROPERTIES AND SYNTHESIS OF PTH AND PEDOT NANOMATERIALS 258 12.4.2 INKJET PRINTING AND APPLICATIONS OF PTH NANOMATERIALS 258 12.5 CONCLUSIONS AND FUTURE OUTLOOK 258 REFERENCES 260 13 APPLICATION OF PRINTED SILVER NANOWIRES BASED ON LASER–INDUCED FORWARD TRANSFER 265
TEPPEI ARAKI, RAJESH MANDAMPARAMBIL, JINTING JIU, TSUYOSHI SEKITANI, AND KATSUAKI SUGANUMA 13.1 INTRODUCTION 265 13.2 AG NW TRANSPARENT ELECTRODES 266 13.2.1 BACKGROUND 266 13.2.2 TRANSPARENT ELECTRODES FORMED FROM ULTRA–LONG AG NWS 267 13.3 PRINTED AG NW ELECTRODES 269 13.3.1 FABRICATION AND PROPERTIES OF STRETCHABLE ELECTRODES 269 13.3.2 AG NWS PRINTING BY LIFT 269 13.4 SUMMARY 271 REFERENCES 271 14 INKJET PRINTING OF FUNCTIONAL POLYMERS INTO CARBON FIBER COMPOSITES 275
PATRICK J. SMITH, ELLIOT J. FLEET, AND YI ZHANG 14.1 INKJET PRINTING 275 14.2 CARBON FIBER COMPOSITES 276 14.3 MECHANICAL TESTS 276 14.4 PRINTING AND SAMPLE PREPARATION 277 14.5 CARBON FIBER COMPOSITES THAT CONTAIN INKJET–PRINTED PATTERNS COMPOSED OF PMMA MICRODROPLETS 278 14.6 CARBON FIBER COMPOSITES THAT CONTAIN INKJET–PRINTED PATTERNS COMPOSED OF PMMA AND PEG MICRODROPLETS 283 14.7 MORPHOLOGY OF THE PRINTED PMMA AND PEG DROPLETS 284 14.8 PRINTED POLYMERS FOR INTRINSIC REPAIR OF COMPOSITES 286 14.9 CONCLUSIONS 288 ACKNOWLEDGMENTS 289 REFERENCES 289 15 INKJET–PRINTABLE NANOMATERIALS AND NANOCOMPOSITES FOR SENSOR FABRICATION 293
NIAMH T. BRANNELLY AND ANTHONY J. KILLARD 15.1 INTRODUCTION 293 15.2 METALLIC INKS 294 15.2.1 GOLD 294 15.2.2 SILVER 296 15.2.3 COPPER, NICKEL, AND ALUMINA 296 15.2.4 METAL OXIDES 297 15.3 CONDUCTIVE POLYMERS 298 15.3.1 POLYANILINE 299 15.3.2 POLYPYRROLE 300 15.3.3 PRUSSIAN BLUE 301 15.3.4 PEDOT 302 15.4 CARBON NANOMATERIALS 302 15.4.1 GRAPHENE OXIDE 302 15.4.2 CARBON NANOTUBES 304 15.5 FUTURE OUTLOOKS AND CONCLUSIONS 308 REFERENCES 308 16 ELECTROCHROMICS FOR PRINTED DISPLAYS AND SMART WINDOWS 317
POOI SEE LEE, GUOFA CAI, ALICE L.–S. EH, AND PETER DARMAWAN 16.1 OVERVIEW ON ELECTROCHROMICS 317 16.1.1 ELECTROCHROMICS FOR GREEN BUILDINGS 318 16.1.2 ELECTROCHROMICS FOR DISPLAYS 320 16.2 SCREEN PRINTING 324 16.3 INKJET PRINTING 326 16.4 FLEXOGRAPHIC PRINTING 329 16.5 ROLL–TO–ROLL PRINTING 329 16.6 OTHER PRINTING METHODS 329 16.7 CONCLUSIONS AND PERSPECTIVES 330 REFERENCES 332 INDEX 341

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