Verfügbarkeit: Inkjet-based micromanufacturing

Inkjet-based micromanufacturing:

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Bibliographische Detailangaben
Weitere Verfasser:	Korvink, Jan G. (HerausgeberIn)
Format:	Buch
Sprache:	English
Veröffentlicht:	Weinheim Wiley-VCH-Verl. 2012
Schriftenreihe:	Advanced micro & nanosystems 9
Schlagworte:	Mikrofertigung Tintenstrahldruck Aufsatzsammlung
Online-Zugang:	Inhaltstext Inhaltsverzeichnis
Beschreibung:	XVI, 371 S. Ill., graph. Darst.
ISBN:	3527319042 9783527319046 9783527647101

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Datensatz im Suchindex

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adam_text	IMAGE 1 CONTENTS LIST O F CONTRIBUTORS X I I I 1 OVERVIEW O F INKJET-BASED MICROMANUFACTURING 1 DAVID WALLACE 1.1 I N T R O D U C T I O N 1 1.2 INKJET TECHNOLOGY 1 1.2.1 C O N T I N U O U S M O D E INKJET (CIJ) TECHNOLOGY 2 1.2.2 D E M A N D M O D E INKJET TECHNOLOGY 2 1.3 FLUID R E Q U I R E M E N T S 3 1.4 PATTERN FORMATION: FLUID/SUBSTRATE INTERACTION 5 1.5 M I C R O M A N U F A C T U R I N G 6 1.5.1 I N T R O D U C T I O N 6 1.5.2 LIMITATIONS A N D OPPORTUNITIES I N M I C R O M A N U F A C T U R I N G 7 1.5.3 BENEFITS O F INKJET I N MICROFABRICATION 8 1.6 EXAMPLES O F INKJET I N M I C R O M A N U F A C T U R I N G 9 1.6.1 C H E M I C A L SENSORS 9 1.6.2 OPTICAL M E M S DEVICES 10 1.6.3 BIO-MEMS DEVICES 12 1.6.4 ASSEMBLY A N D PACKAGING 13 1.7 CONCLUSIONS 14 A C K N O W L E D G M E N T S 14 REFERENCES 14 2 COMBINATORIAL SCREENING O F MATERIALS USING INKJET PRINTING A S A PATTERNING TECHNIQUE 19 A N K E TEICHLER, JOLKE PERELAER, AND ULRICH S. SCHUBERT 2.1 I N T R O D U C T I O N 19 2.2 INKJET P R I N T I N G - F R O M WELL-DEFINED DOTS TO H O M O G E N E O U S FILMS 20 2.3 T H I N - F I L M LIBRARIES P R E P A R E D B Y INKJET P R I N T I N G 2 5 2.4 COMBINATORIAL SCREENING O F MATERIALS FOR O R G A N I C SOLAR CELLS 28 HTTP://D-NB.INFO/1016558376 IMAGE 2 VI C O N T E N T S 2.5 CONCLUSION A N D OUTLOOK 3 4 REFERENCES 3 5 3 THERMAL INKJET 41 NAOKI MORITA 3.1 HISTORY O F T H E R M A L INKJET TECHNOLOGY 41 3.2 MARKET T R E N D S FOR INKJET PRODUCTS A N D ELECTROPHOTOGRAPHY 4 2 3.3 STRUCTURES O F VARIOUS TIJ H E A D S 43 3.4 RESEARCH O N RAPID BOILING A N D PRINCIPLE O F TIJ 4 4 3.5 INKJETTING M E C H A N I S M O F TIJ 4 7 3.6 BASIC JETTING BEHAVIOR O F TIJ 48 3.6.1 I N P U T P O W E R CHARACTERISTICS 48 3.6.2 FREQUENCY CHARACTERISTICS 4 9 3.6.3 D E P E N D E N C Y O N T E M P E R A T U R E 4 9 3.7 TIJ BEHAVIOR ANALYSIS U S I N G SIMULATION 51 3.7.1 CYLINDRICAL T H E R M A L PROPAGATING CALCULATION BASED O N T H E FINITE E L E M E N T M E T H O D (SOFTWARE NAME: ANSYS) 51 3.7.2 FLUIDIC FREE BOUNDARY CALCULATION BASED O N T H E FINITE DIFFERENTIATION M E T H O D (SOFTWARE N A M E : FLOW3D) 5 1 3.8 ISSUES W I T H RELIABILITY I N TIJ 53 3.9 P R E S E N T A N D F U T U R E EVOLUTION I N TIJ TECHNOLOGY 5 4 REFERENCES 5 5 4 HIGH-RESOLUTION ELECTROHYDRODYNAMIC INKJET 5 7 PARK JANG- UNG AND J O H N A. ROGERS 4.1 INTRODUCTION 5 7 4.2 P R I N T I N G SYSTEM 5 7 4.3 CONTROL O F JET MOTIONS 5 9 4.4 D R O P - O N - D E M A N D M O D E P R I N T I N G 6 0 4.5 VERSATILITY O F PRINTABLE MATERIALS A N D RESOLUTIONS 62 4.6 APPLICATIONS I N ELECTRONICS A N D BIOTECHNOLOGY 64 4.7 HIGH-RESOLUTION P R I N T I N G O F C H A R G E 6 9 REFERENCES 70 5 CROSS TALK IN PIEZO INKJET 73 H E R M A N WIJSHOJF 5.1 INTRODUCTION 73 5.2 ELECTRICAL CROSS TALK 73 5.3 DIRECT CROSS TALK 74 5.4 P R E S S U R E - I N D U C E D CROSS TALK ' 76 5.5 ACOUSTIC CROSS TALK 7 8 5.6 P R I N T H E A D RESONANCE 81 5.7 RESIDUAL VIBRATIONS 83 REFERENCES 8 4 IMAGE 3 C O N T E N T S V I I 6 PATTERNING 8 7 PATRICK J. S M I T H AND JONATHAN STRINGER 6.1 INTRODUCTION 8 7 6.1.1 DROPLET I M P A C T A N D FINAL DROPLET RADIUS 88 6.1.2 EVAPORATION O F INKJET-PRINTED DROPLETS AT R O O M T E M P E R A T U R E 90 6.1.3 MORPHOLOGICAL CONTROL FOR I N K DROPLETS, LINES, A N D FILMS 91 6.2 CONCLUSION 94 REFERENCES 95 7 DRYING O F INKJET-PRINTED DROPLETS H A N S KUERTEN A N D DANIEL SIREGAR 7.1 INTRODUCTION 9 7 7.2 MODELING O F DRYING O F A DROPLET 7.2.1 FLUID MODEL 98 7.2.2 LUBRICATION APPROXIMATION 99 7.2.3 SOLUTE CONCENTRATION 101 7.2.4 EVAPORATION VELOCITY 102 7.2.5 N U M E R I C A L M E T H O D 103 7.3 RESULTS J 03 7.3.1 DROPLET S H A P E EVOLUTION 104 7.3.2 LAYER T H I C K N E S S 206 7.3.3 EFFECT O F DIFFUSION 108 A C K N O W L E D G M E N T S 109 REFERENCES 109 8 POSTPRINTING PROCESSES FOR INORGANIC INKS FOR PLASTIC ELECTRONICS APPLICATIONS 111 JOLKE PERELAER 8.1 INTRODUCTION 111 8.1.1 INKJET P R I N T I N G 111 8.1.2 P R I N T E D ELECTRONICS 111 8.2 INKJET P R I N T I N G A N D POSTPRINTING PROCESSES O F METALLIC I N K S 112 8.2.1 CHOICE O F METAL 112 8.2.2 POSTPRINTING PROCESSES TO CONVERT INORGANIC P R E C U R S O R I N K 115 8.2.3 CONVENTIONAL SINTERING T E C H N I Q U E S 116 8.2.4 ALTERNATIVE A N D SELECTIVE SINTERING M E T H O D S 116 8.2.5 R O O M - T E M P E R A T U R E SINTERING 119 8.3 CONCLUSIONS A N D OUTLOOK 121 A C K N O W L E D G M E N T S 122 REFERENCES 122 9 VISION MONITORING 127 KYE-SI KWON 9.1 INTRODUCTION 127 9.2 M E A S U R E M E N T SETUP 127 97 98 IMAGE 4 V I I I CONTENTS 9.3 I M A G E PROCESSING 130 9.4 JETTING SPEED M E A S U R E M E N T 134 9.5 H E A D NORMALIZATION A N D CONDITION MONITORING 139 9.6 M E N I S C U S MOTION M E A S U R E M E N T A N D ITS APPLICATION 141 REFERENCES 144 10 ACOUSTIC MONITORING 145 H E R M A N WIJSHOFF 10.1 INTRODUCTION 145 10.2 SELF SENSING 145 10.3 M E A S U R I N G PRINCIPLE 146 10.4 D R O P FORMATION, REFILL, A N D W E T T I N G 150 10.5 DIRT 152 10.6 AIR BUBBLES 153 10.7 P R I N T H E A D CONTROL 156 REFERENCES 157 11 EQUALIZATION O F JETTING PERFORMANCE 159 M A N - I N BAEK A N D MICHAEL H O N G 11.1 EQUALIZATION O F T H E DROPLET V O L U M E O N T H E FLY 160 11.1.1 C O M P O N E N T S O F A D R O P W A T C H E R 160 11.1.2 EQUALIZATION T H R O U G H V O L U M E CONTROL 160 11.1.3 RESULTS O F T H E DROPLET V O L U M E M E A S U R E M E N T A N D EQUALIZATION PROCESS 161 11.1.4 S P E E D EQUALIZATION 164 11.1.5 P R O B L E M S W I T H T H E DROPLET EQUALIZATION M E T H O D S O N T H E FLY 164 11.1.5.1 DISTORTION O F T H E C A P T U R E D DROPLET I M A G E S 166 11.1.5.2 RELATION B E T W E E N DROPLET V O L U M E A N D SPEED 166 11.2 DROPLET V O L U M E EQUALIZATION W I T H SESSILE DROPLETS 166 11.2.1 EQUALIZING T H E DROPLET V O L U M E W I T H T H E M E A S U R E M E N T O F SESSILE DROPLETS 167 11.2.2 RESULTS O F T H E SESSILE DROPLET M E A S U R E M E N T A N D EQUALIZATION PROCESS 168 11.2.3 USEFULNESS O F T H E SESSILE DROPLET M E A S U R E M E N T A N D EQUALIZATION PROCESS 169 11.2.4 T H E DROPLET V O L U M E EQUALIZATION PROCESS U S I N G LIGHT T R A N S M I T T A N C E 170 11.2.5 RESULT O F T H E DROPLET V O L U M E EQUALIZATION PROCESS U S I N G LIGHT T R A N S M I T T A N C E 171 F U R T H E R READING 171 12 INKJET INK FORMULATIONS 173 ALEXANDER KAMYSHNY A N D SHLOMO MAGDASSI 12.1 INTRODUCTION 173 12.2 I N K F O R M U L A T I O N 174 IMAGE 5 C O N T E N T S IX 12.2.1 FUNCTIONAL MATERIALS 176 12.2.2 SOLVENTS 177 12.2.2.1 SOLVENT-BASED I N K S 177 12.2.2.2 WATER-BASED I N K S 178 12.2.3 HOT-MELT (PHASE-CHANGE) I N K S 178 12.2.4 UV-CURABLE INKS 178 12.3 I N K P A R A M E T E R S A N D ADDITIVES 179 12.3.1 RHEOLOGY CONTROL 179 12.3.2 SURFACE T E N S I O N MODIFIERS 180 12.3.3 ELECTROLYTES A N D P H 180 12.3.4 F O A M I N G A N D D E F O A M E R S 181 12.3.5 H U M E C T A N T S 181 12.3.6 BINDERS 181 12.3.7 BIOCIDES 182 12.3.8 EXAMPLES O F INKJET I N K F O R M U L A T I O N S 182 12.4 JETTING P E R F O R M A N C E 182 12.4.1 D R O P F O R M A T I O N 183 12.4.2 I N K LATENCY 183 12.4.3 RECOVERABILITY 184 12.4.4 I N K SUPPLY 184 12.5 I N K INTERACTION W I T H SUBSTRATES 185 12.6 N O N G R A P H I C APPLICATIONS 186 12.7 CONCLUSIONS 187 REFERENCES 187 13 ISSUES IN COLOR FILTER FABRICATION WITH INKJET PRINTING 191 DONG-YOUN SHIN A N D KENNETH A. BRAKKE * 13.1 INTRODUCTION 191 13.2 BACKGROUND 191 13.3 C O M P A R I S O N O F P R I N T I N G TECHNOLOGIES 195 13.4 P R I N T I N G SWATHE D U E TO DROPLET V O L U M E VARIATION 199 13.5 SUBPIXEL FILLING W I T H A DESIGNED SURFACE ENERGY CONDITION 204 13.6 O T H E R TECHNICAL ISSUES 212 13.7 CONCLUSION 213 REFERENCES 213 14 APPLICATION O F INKJET PRINTING IN HIGH-DENSITY PIXELATED RGB Q U A N T U M DOT-HYBRID LEDS 217 H A N N A HAVERINEN AND GHASSAN E. JABBOUR 14.1 INTRODUCTION 217 14.2 BACKGROUND 218 14.3 EXPERIMENTAL P R O C E D U R E A N D RESULTS 220 14.3.1 ROLE O F DROPLET F O R M A T I O N 221 14.3.2 A T O M I C FORCE MICROSCOPY 222 14.3.3 ELECTROLUMINESCENCE 225 IMAGE 6 X C O N T E N T S 14.4 INKJET-PRINTED, HIGH-DENSITY RGB PIXEL MATRIX 229 14.5 CONCLUSION 234 A C K N O W L E D G M E N T 234 REFERENCES 234 F U R T H E R READING 236 15 INKJET PRINTING O F METAL OXIDE THIN-FILM TRANSISTORS 237 JOOHO MOON A N D KEUNKYU SONG 15.1 INTRODUCTION 237 15.2 MATERIALS FOR METAL OXIDE SEMICONDUCTORS 237 15.3 INKJET P R I N T I N G ISSUES 239 15.3.1 I N K PRINTABILITY 239 15.3.2 INFLUENCE O F SUBSTRATE P R E H E A T T E M P E R A T U R E 242 15.4 SOLUTION-TO-SOLID CONVERSION BY A N N E A L I N G 247 15.5 ALL-OXIDE INVISIBLE TRANSISTORS 251 15.6 S U M M A R Y 254 REFERENCES 254 16 INKJET FABRICATION O F PRINTED CIRCUIT BOARDS 2 5 7 THOMAS SUTTER 16.1 INTRODUCTION 257 16.2 TRADITIONAL P R I N T E D CIRCUIT BOARD PROCESSES 2 5 7 16.3 CHALLENGES FOR INKJET I N PRINTED CIRCUIT BOARDS 258 16.4 LEGEND-MARKING PROCESSES 261 16.4.1 COST C O M P A R I S O N 262 16.4.2 MATERIALS FOR LEGEND P R I N T I N G 262 16.5 INNERLAYER C O P P E R CIRCUIT P A T T E R N I N G 263 16.5.1 MATERIALS FOR C O P P E R ETCH RESISTS 264 16.5.2 SUBSTRATE MODIFICATION 2 6 5 16.6 C O P P E R PLATING RESIST 266 16.7 W A S T E REDUCTION U S I N G INKJET P R I N T I N G 268 16.8 SOLDER M A S K P R I N T I N G 269 16.9 METALLIC I N K S 273 16.10 THEORETICAL P R I N T I N G EXAMPLE FOR PCB M A N U F A C T U R I N G 2 7 5 16.11 DIGITAL P R I N T I N G ALTERNATIVES TO INKJET FABRICATION 276 16.12 F U T U R E APPLICATIONS FOR INKJET I N P R I N T E D CIRCUIT BOARDS 276 REFERENCES 2 7 7 17 PHOTOVOLTAICS 279 HEATHER A. S. PIATT A N D MAIKEL F.A.M. V A N HEST 17.1 INTRODUCTION 279 17.2 DEVICE STRUCTURES 280 17.3 SMALL- A N D LARGE-AREA P R I N T I N G FOR PHOTOVOLTAICS 283 17.4 C O M M E R C I A L INKJET FOR PHOTOVOLTAICS 289 IMAGE 7 C O N T E N T S X I 17.5 S U M M A R Y A N D PERSPECTIVE 291 REFERENCES 292 18 INKJET PRINTED ELECTROCHEMICAL S E N S O R S 295 AOIFE M O T R I N 18.1 INTRODUCTION 295 18.2 P R I N T E D S E N S O R M A N U F A C T U R I N G 2 9 7 18.3 INKJET P R I N T I N G O F S E N S O R C O M P O N E N T S 2 9 8 18.3.1 SUBSTRATES 299 18.3.2 C O N D U C T I N G TRACKS 300 18.3.3 T R A N S D U C E R MATERIALS 3 0 0 18.3.4 BIOMOLECULES 305 18.4 INKJET-PRINTED S E N S O R APPLICATIONS 306 18.5 F U T U R E C O M M E R C I A L PROJECTION 306 ABBREVIATIONS 3 0 9 REFERENCES 309 19 ANTENNAS FOR RADIO FREQUENCY IDENTIFICATION TAGS 313 VIVEK SUBRAMANIAN 19.1 I N T R O D U C T I O N 313 19.1.1 I N T R O D U C T I O N TO RFID 313 19.1.1.1 RFID T A G CLASSIFICATION 314 19.1.2 APPLICATIONS O F P R I N T I N G TO R F I D A N T E N N A PRODUCTION 3 1 7 19.1.2.1 A N OVERVIEW O F R F I D - H F V E R S U S U H F 318 19.1.2.2 SILICON-BASED RFID T A G C O N S T R U C T I O N - F R O M C H I P TO T A G 319 19.2 P R I N T E D A N T E N N A S 319 19.2.1 H F T A G A N T E N N A CONSIDERATIONS 3 2 0 19.2.2 U H F T A G A N T E N N A CONSIDERATIONS 321 19.2.3 APPLICATION O F P R I N T I N G TO A N T E N N A FABRICATION 3 2 2 19.2.4 MATERIALS FOR P R I N T E D A N T E N N A S 323 19.2.4.1 METALLIC PASTES 3 2 4 19.2.4.2 PARTICLE-BASED I N K S 325 19.2.4.3 ORGANOMETALLIC PRECURSORS 326 19.3 S U M M A R Y O F STATUS A N D OUTLOOK FOR P R I N T E D A N T E N N A S 3 2 7 REFERENCES 328 20 INKJET PRINTING FOR MEMS 331 K. PATAKY, V. AUZELYTE, A N D J. BRUGGER 20.1 I N T R O D U C T I O N 331 20.2 PHOTOLITHOGRAPHY A N D ETCHING 331 20.2.1 PHOTOLITHOGRAPHY 3 3 2 20.2.2 ETCHING 3 3 2 20.3 DIRECT MATERIALS DEPOSITION 333 20.4 OPTICAL MEMS 336 20.5 MEMS PACKAGING 3 3 9 IMAGE 8 X I I \| C O N T E N T S 20.6 FUNCTIONALIZATION A N D NOVEL APPLICATIONS 3 4 0 20.7 CONCLUSION 3 4 2 REFERENCES 3 4 2 21 INKJET PRINTING O F INTERCONNECTS A N D CONTACTS BASED O N INORGANIC NANOPARTICLES FOR PRINTED ELECTRONIC APPLICATIONS 3 4 7 JOLKE PERELAER AND ULRICH S. SCHUBERT 21.1 INTRODUCTION 3 4 7 21.2 INKJET P R I N T I N G O F METALLIC INKS FOR CONTACTS A N D INTERCONNECTS 348 21.2.1 INKJET P R I N T E D CONTACTS A N D INTERCONNECTS FOR MICROELECTRONIC APPLICATIONS 348 21.3 INKJET P R I N T I N G I N H I G H RESOLUTION 351 21.3.1 SURFACE W E T T I N G A N D I N K MODIFICATIONS 351 21.3.2 REDUCED PRINTED DROPLET D I A M E T E R 353 21.3.3 PHYSICAL SURFACE T R E A T M E N T 3 5 7 21.3.4 I N K JET-PRINTED IONOGELS 359 21.4 CONCLUSIONS A N D OUTLOOK 361 A C K N O W L E D G M E N T S 3 6 2 REFERENCES 3 6 2 INDEX 3 6 5
any_adam_object	1
author2	Korvink, Jan G.
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author_facet	Korvink, Jan G.
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discipline	Elektrotechnik / Elektronik / Nachrichtentechnik
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id	DE-604.BV040101421
illustrated	Illustrated
indexdate	2024-07-21T00:30:40Z
institution	BVB
isbn	3527319042 9783527319046 9783527647101
language	English
oai_aleph_id	oai:aleph.bib-bvb.de:BVB01-024957957
oclc_num	789880784
open_access_boolean
owner	DE-M347 DE-703 DE-860 DE-29T DE-83 DE-92
owner_facet	DE-M347 DE-703 DE-860 DE-29T DE-83 DE-92
physical	XVI, 371 S. Ill., graph. Darst.
publishDate	2012
publishDateSearch	2012
publishDateSort	2012
publisher	Wiley-VCH-Verl.
record_format	marc
series	Advanced micro & nanosystems
series2	Advanced micro & nanosystems
spelling	Inkjet-based micromanufacturing ed. by Jan G. Korvink ... Inkjet based micromanufacturing Weinheim Wiley-VCH-Verl. 2012 XVI, 371 S. Ill., graph. Darst. txt rdacontent n rdamedia nc rdacarrier Advanced micro & nanosystems 9 Mikrofertigung (DE-588)7523640-0 gnd rswk-swf Tintenstrahldruck (DE-588)7658522-0 gnd rswk-swf (DE-588)4143413-4 Aufsatzsammlung gnd-content Tintenstrahldruck (DE-588)7658522-0 s Mikrofertigung (DE-588)7523640-0 s DE-604 Korvink, Jan G. edt Erscheint auch als Online-Ausgabe, PDF 978-3-527-64711-8 Advanced micro & nanosystems 9 (DE-604)BV019371555 9 text/html http://deposit.dnb.de/cgi-bin/dokserv?id=3902509&prov=M&dok_var=1&dok_ext=htm Inhaltstext DNB Datenaustausch application/pdf http://bvbr.bib-bvb.de:8991/F?func=service&doc_library=BVB01&local_base=BVB01&doc_number=024957957&sequence=000001&line_number=0001&func_code=DB_RECORDS&service_type=MEDIA Inhaltsverzeichnis
spellingShingle	Inkjet-based micromanufacturing Advanced micro & nanosystems Mikrofertigung (DE-588)7523640-0 gnd Tintenstrahldruck (DE-588)7658522-0 gnd
subject_GND	(DE-588)7523640-0 (DE-588)7658522-0 (DE-588)4143413-4
title	Inkjet-based micromanufacturing
title_alt	Inkjet based micromanufacturing
title_auth	Inkjet-based micromanufacturing
title_exact_search	Inkjet-based micromanufacturing
title_full	Inkjet-based micromanufacturing ed. by Jan G. Korvink ...
title_fullStr	Inkjet-based micromanufacturing ed. by Jan G. Korvink ...
title_full_unstemmed	Inkjet-based micromanufacturing ed. by Jan G. Korvink ...
title_short	Inkjet-based micromanufacturing
title_sort	inkjet based micromanufacturing
topic	Mikrofertigung (DE-588)7523640-0 gnd Tintenstrahldruck (DE-588)7658522-0 gnd
topic_facet	Mikrofertigung Tintenstrahldruck Aufsatzsammlung
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volume_link	(DE-604)BV019371555
work_keys_str_mv	AT korvinkjang inkjetbasedmicromanufacturing

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