Verfügbarkeit: Microfluidic chemical integrated circuits based on stimuli-responsive hydrogels for on-chip flow control

Microfluidic chemical integrated circuits based on stimuli-responsive hydrogels for on-chip flow control:

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Bibliographische Detailangaben
1. Verfasser:	Frank, Philipp (VerfasserIn)
Format:	Abschlussarbeit Buch
Sprache:	English
Veröffentlicht:	Dresden Vogt 2017
Ausgabe:	[1. Auflage]
Schriftenreihe:	Beiträge aus der Mikrosystemtechnik
Schlagworte:	Hydrogel Transistor Lab on a Chip Funktionsgel Integrierte Schaltung Mikrofluidik Paperback / softback Datenübertragung Mikofluidik On-Chip 1684: Hardcover, Softcover / Technik/Elektronik, Elektrotechnik, Nachrichtentechnik Hochschulschrift
Online-Zugang:	Ausführliche Beschreibung Inhaltsverzeichnis Inhaltsverzeichnis
Beschreibung:	xvi, 173 Seiten Illustrationen 21 cm
ISBN:	9783959470223 3959470223

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Datensatz im Suchindex

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adam_text	CONTENTS 1 INTRODUCTION, MOTIVATION AND SCOPE 1 1.1 AN INTRODUCTION TO M ICROFLUIDICS........................................................................... 1 1.2 MOTIVATION FOR MICROFLUIDIC ICS .......................................................................... 2 1.3 THE SCOPE OF THIS W O RK ...................................................................................... 3 2 MICROFLUIDICS, THEORETICAL ASPECTS AND THE ANALOGY TO ELECTRONICS 5 2.1 PHYSICAL FLUID PHENOMENA ON THE M ICROSCALE................................................... 5 2.1.1 KEY FIGURES OF THE MICROFLUIDIC R E G IM E ............................................... 5 2.1.2 DIFFUSIVE TRANSPORT ON THE M IC RO S C A LE ................................................... 7 2.1.3 HYDRODYNAMIC FLUID B E H A V IO R .............................................................. 7 2.2 ANALOGY BETWEEN MICROFLUIDICS AND ELE CTRO NICS ................................................ 10 2.3 MICROFLUIDIC NETWORK C O M PO NEN TS .................................................................... 12 3 STATE-OF-THE-ART MICROFLUIDIC PLATFORMS 15 3.1 PNEUMATIC MICROFLUIDICS....................................................................................... 15 3.1.1 FUNCTIONAL PRINCIPLE................................................................................. 15 3.1.2 PERIPHERAL EQUIPM ENT.............................................................................. 16 3.1.3 LARGE-SCALE-INTEGRATION (LSI) A PP ROA CH............................................... 18 3.1.4 MICROPNEUMATIC INTEGRATED C IR C U ITS ..................................................... 19 3.1.5 MICROPNEUMATICS IN S U M M A RY .............................................................. 21 3.2 HYDROGEL MICROFLUIDICS ....................................................................................... 21 3.2.1 FUNCTIONAL PRINCIPLE................................................................................. 21 3.2.2 MICROFLUIDIC HYDROGEL D E V IC E S .............................................................. 22 3.2.3 LARGE-SCALE-INTEGRATION A PP RO A CH ........................................................ 24 3.2.4 HYDROGEL MICROFLUIDICS IN S U M M A RY ..................................................... 25 4 POLYMERIC MATERIALS 27 4.1 POLYDIMETHYLSILOXANE.......................................................................................... 27 4.2 H YD RO G E LS............................................................................................................. 28 4.2.1 STIMULI-RESPONSIVE H YD RO G E LS .............................................................. 29 4.2.2 PHASE TRANSITION B E H A V IO R .................................................................... 30 4.2.3 LOWER AND UPPER CRITICAL SOLUTION TEMPERATURE .................................. 30 4.2.4 SWELLING KINETICS OF H YDROGELS .............................................................. 31 4.2.5 HYDROGELS FOR M ICROFLUIDICS .................................................................... 33 5 FABRICATION TECHNIQUES, PROTOCOLS AND CHARACTERIZATION METHODS 39 5.1 MICROFLUIDIC FABRICATION TECHNIQUE: SOFT L ITH O G RA P H Y ..................................... 39 5.2 MASTER FABRICATION TECHNOLOGY........................................................................... 40 5.2.1 PRINTED CIRCUIT BOARD TECHNOLOGY ........................................................ 40 5.2.2 DRY FILM RESIST TECHNOLOGY ................................................................. 41 5.2.3 ROUNDED DFR STRUCTURES........................................................................ 43 5.2.4 LIQUID RESIST TECHNOLOGY........................................................................ 46 5.3 MICROFLUIDIC SYSTEM FABRICATION ........................................................................ 51 5.3.1 ROMS M O LD IN G ....................................................................................... 51 5.3.2 ROMS SPIN-COATING .............................................................................. 52 5.3.3 PETROLEUM ETHER TREATM ENT .................................................................... 52 5.3.4 ROMS B O N D IN G ....................................................................................... 54 5.3.5 HYDROGEL PARTICLE PRODUCTION ................................................................. 54 5.3.6 CHIP A S S E M B LIN G .................................................................................... 55 5.4 PREPARATION PROTOCOLS . .......................................................................................... 57 5.4.1 ETHANOL SOLUTION .................................................................................... 57 5.4.2 GROWTH M ED IU M ....................................................................................... 57 5.4.3 BUFFER SOLUTION ....................................................................................... 58 5.4.4 AGAROSE PAD F ABRICATION........................................................................ 58 5.5 MICROFLUIDIC CHARACTERIZATION SETUP ................................................................. 58 5.5.1 MEASURING PRINCIPLE................................................................................. 56 5.5.2 MICROFLUIDIC PRESSURE S O U RCE ................................................................. 59 5.5.3 MEASURING SETUP AND P ROTO COL.............................................................. 65 6 THE CHEMO-FLUIDIC MEMBRANE TRANSISTOR 67 6.1 DEVELOPING THE CHEMO-FLUIDIC MEMBRANE T RANSISTO R ..................................... 67 6.2 ELECTRONIC TRANSISTOR A NALOGY.............................................................................. 69 6.3 DEVICE P RINCIPLE.................................................................................................... 70 6.4 EXPERIMENTAL CHARACTERIZATION M E TH O D S........................................................... 73 6.4.1 STATIC C HARACTERIZATION........................................................................... 73 6.4.2 DYNAMIC C H ARACTERIZATION .................................................................... 74 6.5 EXPERIMENTAL R E S U LTS .......................................................................................... 75 6.5.1 OUTPUT C HARACTERISTIC.............................................................................. 75 6.5.2 TRANSFER C H ARA CTE RISTIC........................................................................... 78 6.5.3 DYNAMIC BEHAVIOR ................................................................................. 76 6.6 THE CHEMO-FLUIDIC MEMBRANE TRANSISTOR IN S U M M A RY .................................. 84 7 CHEMO-FLUIDIC INTEGRATED DISCRETE CIRCUITS 87 7.1 REQUIREMENTS FOR INTEGRATED DISCRETE C IRC U ITS .................................................. 87 7.2 PRIMARY CIRCUIT ELEM ENT....................................................................................... 36 7.2.1 FUNCTIONAL P RINCIPLE................................................................................. 69 7.2.2 MODEL S YSTEM .......................................................................................... 90 7.2.3 SIGNAL C O M P LIA N C E ................................................................................. 92 7.3 THE PRIMARY CIRCUIT ELEMENT IN S U M M A RY ....................................................... 96 8 BASIC COMBINATORIAL LOGIC GATES 99 8.1 QUALITATIVE FUNCTIONAL INVESTIGATION .....................................................................102 8.1.1 DEVICE PRINCIPLE OF THE AND G A T E ............................................................ 102 6.1.2 DEVICE PRINCIPLE OF THE OR G A TE ............................................................... 102 8.2 QUANTITATIVE FUNCTIONAL INVESTIGATION .................................................................... 104 8.2.1 RESULTS OF THE AND G A TE ...........................................................................106 6.2.2 RESULTS OF THE OR G A TE ..............................................................................108 6.3 MULTI-DIMENSIONAL SIMULATION OF THE AND G A T E ..................................................110 8.3.1 MODEL AND SIMULATION DETAILS ................................................................. 110 6.3.2 SIMULATION R E S U LTS .................................................................................... 110 8.4 VARIABILITY OF THE BASIC LOGIC GATES .................................................................... 113 8.5 BASIC LOGIC GATES IN SUM M ARY..............................................................................115 9 SEQUENTIAL MODULE: THE RS FLIP-FLOP 117 9.1 DEVICE IM PLEM ENTATION.......................................................................................... 117 9.2 QUALITATIVE FUNCTIONAL INVESTIGATION .................................................................... 117 9.3 THE RS FLIP-FLOP IN S U M M A RY .................................................................................119 10 THE CHEMO-FLUIDIC OSCILLATOR 121 10.1 DERIVATION FROM ELECTRONICS.................................................................................... 121 10.2 DEVICE P RINCIPLE...................................................................................................... 122 10.3 QUANTITATIVE FUNCTIONAL INVESTIGATION.....................................................................126 10.3.1 SIGNALS IN THE CHEMO-FLUIDIC O S C ILLA TO R .............................................. 126 10.3.2 DYNAMIC INVESTIGATION ..............................................................................127 10.3.3 THE CHEMO-FLUIDIC OSCILLATOR AND SIGNAL C O M P LIA N C E ......................128 10.4 CHEMO-FLUIDIC OSCILLATOR FOR A PPLICATION .............................................................. 130 10.5 EXPERIMENTAL CONDUCT .......................................................................................... 131 10.6 CHEMO-FLUIDIC OSCILLATOR IN S U M M A RY ................................................................. 131 11 CHEMO-FLUIDIC ICS FOR BIOLOGICAL APPLICATIONS 133 11.1 EXPERIMENTAL CONDUCT .......................................................................................... 133 11.1.1 PRE-CULTURING AND BASIC GROWTH S TUDIES..................................................133 11.1.2 CULTIVATION SYSTEM FOR TIME-LAPSE MICROSCOPY .................................. 134 11.1.3 EXPERIMENTAL SETUP FOR MICROBIAL GROWTH S TU D IE S ............................... 135 11.2 MICROBIAL CULTIVATION S Y S TE M .................................................................................136 11.3 GROWTH STUDIES OF S. C ERVISIAE .......................................................................... 136 11.4 CHEMO-FLUIDIC ICS FOR APPLICATION IN S U M M A RY .............................................. 140 12 SUMMARY: CHEMO-FLUIDIC ICS FOR AUTONOMOUS FLOW CONTROL 141 13 OUTLOOK 145 BIBLIOGRAPHY 147 A APPENDIX 169 A.1 PHOTOLITHOGRAPHY MASKS ....................................................................................... 169 A.1.1 BASIC LOGIC G ATES........................................................................................ 169 A. 1.2 RS F LIP -FLO P ..................................................................................................171 A.1.3 CHEMO-FLUIDIC O S C ILLA TO R ........................................................................... 172
adam_txt	CONTENTS 1 INTRODUCTION, MOTIVATION AND SCOPE 1 1.1 AN INTRODUCTION TO M ICROFLUIDICS. 1 1.2 MOTIVATION FOR MICROFLUIDIC ICS . 2 1.3 THE SCOPE OF THIS W O RK . 3 2 MICROFLUIDICS, THEORETICAL ASPECTS AND THE ANALOGY TO ELECTRONICS 5 2.1 PHYSICAL FLUID PHENOMENA ON THE M ICROSCALE. 5 2.1.1 KEY FIGURES OF THE MICROFLUIDIC R E G IM E . 5 2.1.2 DIFFUSIVE TRANSPORT ON THE M IC RO S C A LE . 7 2.1.3 HYDRODYNAMIC FLUID B E H A V IO R . 7 2.2 ANALOGY BETWEEN MICROFLUIDICS AND ELE CTRO NICS . 10 2.3 MICROFLUIDIC NETWORK C O M PO NEN TS . 12 3 STATE-OF-THE-ART MICROFLUIDIC PLATFORMS 15 3.1 PNEUMATIC MICROFLUIDICS. 15 3.1.1 FUNCTIONAL PRINCIPLE. 15 3.1.2 PERIPHERAL EQUIPM ENT. 16 3.1.3 LARGE-SCALE-INTEGRATION (LSI) A PP ROA CH. 18 3.1.4 MICROPNEUMATIC INTEGRATED C IR C U ITS . 19 3.1.5 MICROPNEUMATICS IN S U M M A RY . 21 3.2 HYDROGEL MICROFLUIDICS . 21 3.2.1 FUNCTIONAL PRINCIPLE. 21 3.2.2 MICROFLUIDIC HYDROGEL D E V IC E S . 22 3.2.3 LARGE-SCALE-INTEGRATION A PP RO A CH . 24 3.2.4 HYDROGEL MICROFLUIDICS IN S U M M A RY . 25 4 POLYMERIC MATERIALS 27 4.1 POLYDIMETHYLSILOXANE. 27 4.2 H YD RO G E LS. 28 4.2.1 STIMULI-RESPONSIVE H YD RO G E LS . 29 4.2.2 PHASE TRANSITION B E H A V IO R . 30 4.2.3 LOWER AND UPPER CRITICAL SOLUTION TEMPERATURE . 30 4.2.4 SWELLING KINETICS OF H YDROGELS . 31 4.2.5 HYDROGELS FOR M ICROFLUIDICS . 33 5 FABRICATION TECHNIQUES, PROTOCOLS AND CHARACTERIZATION METHODS 39 5.1 MICROFLUIDIC FABRICATION TECHNIQUE: SOFT L ITH O G RA P H Y . 39 5.2 MASTER FABRICATION TECHNOLOGY. 40 5.2.1 PRINTED CIRCUIT BOARD TECHNOLOGY . 40 5.2.2 DRY FILM RESIST TECHNOLOGY . 41 5.2.3 ROUNDED DFR STRUCTURES. 43 5.2.4 LIQUID RESIST TECHNOLOGY. 46 5.3 MICROFLUIDIC SYSTEM FABRICATION . 51 5.3.1 ROMS M O LD IN G . 51 5.3.2 ROMS SPIN-COATING . 52 5.3.3 PETROLEUM ETHER TREATM ENT . 52 5.3.4 ROMS B O N D IN G . 54 5.3.5 HYDROGEL PARTICLE PRODUCTION . 54 5.3.6 CHIP A S S E M B LIN G . 55 5.4 PREPARATION PROTOCOLS . . 57 5.4.1 ETHANOL SOLUTION . 57 5.4.2 GROWTH M ED IU M . 57 5.4.3 BUFFER SOLUTION . 58 5.4.4 AGAROSE PAD F ABRICATION. 58 5.5 MICROFLUIDIC CHARACTERIZATION SETUP . 58 5.5.1 MEASURING PRINCIPLE. 56 5.5.2 MICROFLUIDIC PRESSURE S O U RCE . 59 5.5.3 MEASURING SETUP AND P ROTO COL. 65 6 THE CHEMO-FLUIDIC MEMBRANE TRANSISTOR 67 6.1 DEVELOPING THE CHEMO-FLUIDIC MEMBRANE T RANSISTO R . 67 6.2 ELECTRONIC TRANSISTOR A NALOGY. 69 6.3 DEVICE P RINCIPLE. 70 6.4 EXPERIMENTAL CHARACTERIZATION M E TH O D S. 73 6.4.1 STATIC C HARACTERIZATION. 73 6.4.2 DYNAMIC C H ARACTERIZATION . 74 6.5 EXPERIMENTAL R E S U LTS . 75 6.5.1 OUTPUT C HARACTERISTIC. 75 6.5.2 TRANSFER C H ARA CTE RISTIC. 78 6.5.3 DYNAMIC BEHAVIOR . 76 6.6 THE CHEMO-FLUIDIC MEMBRANE TRANSISTOR IN S U M M A RY . 84 7 CHEMO-FLUIDIC INTEGRATED DISCRETE CIRCUITS 87 7.1 REQUIREMENTS FOR INTEGRATED DISCRETE C IRC U ITS . 87 7.2 PRIMARY CIRCUIT ELEM ENT. 36 7.2.1 FUNCTIONAL P RINCIPLE. 69 7.2.2 MODEL S YSTEM . 90 7.2.3 SIGNAL C O M P LIA N C E . 92 7.3 THE PRIMARY CIRCUIT ELEMENT IN S U M M A RY . 96 8 BASIC COMBINATORIAL LOGIC GATES 99 8.1 QUALITATIVE FUNCTIONAL INVESTIGATION .102 8.1.1 DEVICE PRINCIPLE OF THE AND G A T E . 102 6.1.2 DEVICE PRINCIPLE OF THE OR G A TE . 102 8.2 QUANTITATIVE FUNCTIONAL INVESTIGATION . 104 8.2.1 RESULTS OF THE AND G A TE .106 6.2.2 RESULTS OF THE OR G A TE .108 6.3 MULTI-DIMENSIONAL SIMULATION OF THE AND G A T E .110 8.3.1 MODEL AND SIMULATION DETAILS . 110 6.3.2 SIMULATION R E S U LTS . 110 8.4 VARIABILITY OF THE BASIC LOGIC GATES . 113 8.5 BASIC LOGIC GATES IN SUM M ARY.115 9 SEQUENTIAL MODULE: THE RS FLIP-FLOP 117 9.1 DEVICE IM PLEM ENTATION. 117 9.2 QUALITATIVE FUNCTIONAL INVESTIGATION . 117 9.3 THE RS FLIP-FLOP IN S U M M A RY .119 10 THE CHEMO-FLUIDIC OSCILLATOR 121 10.1 DERIVATION FROM ELECTRONICS. 121 10.2 DEVICE P RINCIPLE. 122 10.3 QUANTITATIVE FUNCTIONAL INVESTIGATION.126 10.3.1 SIGNALS IN THE CHEMO-FLUIDIC O S C ILLA TO R . 126 10.3.2 DYNAMIC INVESTIGATION .127 10.3.3 THE CHEMO-FLUIDIC OSCILLATOR AND SIGNAL C O M P LIA N C E .128 10.4 CHEMO-FLUIDIC OSCILLATOR FOR A PPLICATION . 130 10.5 EXPERIMENTAL CONDUCT . 131 10.6 CHEMO-FLUIDIC OSCILLATOR IN S U M M A RY . 131 11 CHEMO-FLUIDIC ICS FOR BIOLOGICAL APPLICATIONS 133 11.1 EXPERIMENTAL CONDUCT . 133 11.1.1 PRE-CULTURING AND BASIC GROWTH S TUDIES.133 11.1.2 CULTIVATION SYSTEM FOR TIME-LAPSE MICROSCOPY . 134 11.1.3 EXPERIMENTAL SETUP FOR MICROBIAL GROWTH S TU D IE S . 135 11.2 MICROBIAL CULTIVATION S Y S TE M .136 11.3 GROWTH STUDIES OF S. C ERVISIAE . 136 11.4 CHEMO-FLUIDIC ICS FOR APPLICATION IN S U M M A RY . 140 12 SUMMARY: CHEMO-FLUIDIC ICS FOR AUTONOMOUS FLOW CONTROL 141 13 OUTLOOK 145 BIBLIOGRAPHY 147 A APPENDIX 169 A.1 PHOTOLITHOGRAPHY MASKS . 169 A.1.1 BASIC LOGIC G ATES. 169 A. 1.2 RS F LIP -FLO P .171 A.1.3 CHEMO-FLUIDIC O S C ILLA TO R . 172
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genre	(DE-588)4113937-9 Hochschulschrift gnd-content
genre_facet	Hochschulschrift
id	DE-604.BV047207540
illustrated	Illustrated
index_date	2024-07-03T16:53:04Z
indexdate	2024-07-10T09:05:39Z
institution	BVB
institution_GND	(DE-588)106420967X
isbn	9783959470223 3959470223
language	English
oai_aleph_id	oai:aleph.bib-bvb.de:BVB01-032612410
open_access_boolean
owner	DE-83
owner_facet	DE-83
physical	xvi, 173 Seiten Illustrationen 21 cm
publishDate	2017
publishDateSearch	2017
publishDateSort	2017
publisher	Vogt
record_format	marc
series2	Beiträge aus der Mikrosystemtechnik
spelling	Frank, Philipp Verfasser aut Microfluidic chemical integrated circuits based on stimuli-responsive hydrogels for on-chip flow control Philipp Frank [1. Auflage] Dresden Vogt 2017 xvi, 173 Seiten Illustrationen 21 cm txt rdacontent n rdamedia nc rdacarrier Beiträge aus der Mikrosystemtechnik Dissertation Technische Universität Dresden 2017 Hydrogel (DE-588)4160909-8 gnd rswk-swf Transistor (DE-588)4060646-6 gnd rswk-swf Lab on a Chip (DE-588)7610677-9 gnd rswk-swf Funktionsgel (DE-588)4687871-3 gnd rswk-swf Integrierte Schaltung (DE-588)4027242-4 gnd rswk-swf Mikrofluidik (DE-588)4803438-1 gnd rswk-swf Paperback / softback Datenübertragung Mikofluidik On-Chip 1684: Hardcover, Softcover / Technik/Elektronik, Elektrotechnik, Nachrichtentechnik (DE-588)4113937-9 Hochschulschrift gnd-content Mikrofluidik (DE-588)4803438-1 s Lab on a Chip (DE-588)7610677-9 s Integrierte Schaltung (DE-588)4027242-4 s Transistor (DE-588)4060646-6 s Funktionsgel (DE-588)4687871-3 s Hydrogel (DE-588)4160909-8 s DE-604 Vogt Verlag (DE-588)106420967X pbl X:MVB text/html http://www.vogtverlag.de/wissenschaft.html Ausführliche Beschreibung B:DE-101 application/pdf http://d-nb.info/1143614089/04 Inhaltsverzeichnis DNB Datenaustausch application/pdf http://bvbr.bib-bvb.de:8991/F?func=service&doc_library=BVB01&local_base=BVB01&doc_number=032612410&sequence=000001&line_number=0001&func_code=DB_RECORDS&service_type=MEDIA Inhaltsverzeichnis
spellingShingle	Frank, Philipp Microfluidic chemical integrated circuits based on stimuli-responsive hydrogels for on-chip flow control Hydrogel (DE-588)4160909-8 gnd Transistor (DE-588)4060646-6 gnd Lab on a Chip (DE-588)7610677-9 gnd Funktionsgel (DE-588)4687871-3 gnd Integrierte Schaltung (DE-588)4027242-4 gnd Mikrofluidik (DE-588)4803438-1 gnd
subject_GND	(DE-588)4160909-8 (DE-588)4060646-6 (DE-588)7610677-9 (DE-588)4687871-3 (DE-588)4027242-4 (DE-588)4803438-1 (DE-588)4113937-9
title	Microfluidic chemical integrated circuits based on stimuli-responsive hydrogels for on-chip flow control
title_auth	Microfluidic chemical integrated circuits based on stimuli-responsive hydrogels for on-chip flow control
title_exact_search	Microfluidic chemical integrated circuits based on stimuli-responsive hydrogels for on-chip flow control
title_exact_search_txtP	Microfluidic chemical integrated circuits based on stimuli-responsive hydrogels for on-chip flow control
title_full	Microfluidic chemical integrated circuits based on stimuli-responsive hydrogels for on-chip flow control Philipp Frank
title_fullStr	Microfluidic chemical integrated circuits based on stimuli-responsive hydrogels for on-chip flow control Philipp Frank
title_full_unstemmed	Microfluidic chemical integrated circuits based on stimuli-responsive hydrogels for on-chip flow control Philipp Frank
title_short	Microfluidic chemical integrated circuits based on stimuli-responsive hydrogels for on-chip flow control
title_sort	microfluidic chemical integrated circuits based on stimuli responsive hydrogels for on chip flow control
topic	Hydrogel (DE-588)4160909-8 gnd Transistor (DE-588)4060646-6 gnd Lab on a Chip (DE-588)7610677-9 gnd Funktionsgel (DE-588)4687871-3 gnd Integrierte Schaltung (DE-588)4027242-4 gnd Mikrofluidik (DE-588)4803438-1 gnd
topic_facet	Hydrogel Transistor Lab on a Chip Funktionsgel Integrierte Schaltung Mikrofluidik Hochschulschrift
url	http://www.vogtverlag.de/wissenschaft.html http://d-nb.info/1143614089/04 http://bvbr.bib-bvb.de:8991/F?func=service&doc_library=BVB01&local_base=BVB01&doc_number=032612410&sequence=000001&line_number=0001&func_code=DB_RECORDS&service_type=MEDIA
work_keys_str_mv	AT frankphilipp microfluidicchemicalintegratedcircuitsbasedonstimuliresponsivehydrogelsforonchipflowcontrol AT vogtverlag microfluidicchemicalintegratedcircuitsbasedonstimuliresponsivehydrogelsforonchipflowcontrol

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