Verfügbarkeit: Intelligent macromolecules for smart devices

Intelligent macromolecules for smart devices: from materials synthesis to device applications

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Bibliographische Detailangaben
1. Verfasser:	Dai, Liming (VerfasserIn)
Format:	Buch
Sprache:	English
Veröffentlicht:	London [u.a.] Springer 2004
Schriftenreihe:	Engineering materials and processes
Schlagworte:	Intelligent control systems Nanotechnology Makromolekül Polymere Intelligenter Werkstoff Intelligente Konstruktion
Online-Zugang:	Inhaltsverzeichnis
Beschreibung:	Includes bibliographical references and index
Beschreibung:	XVI, 496 S. Ill., graph. Darst.
ISBN:	1852335106

Internformat

MARC


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adam_text	TABLE OF CONTENTS 1 THE CONCEPTS OF INTELLIGENT MACROMOLECULES AND SMART DEVICES ...................1 1.1 INTRODUCTION .................................................................................................1 1.2 THE CONCEPT OF INTELLIGENT MACROMOLECULES ...............................................4 1.2.1 SYNTHETIC MACROMOLECULES.............................................................4 1.2.1.1 CHAIN STRUCTURE AND CLASSIFICATION ...................................4 1.2.1.2 SYNTHESIS...........................................................................6 1.2.1.3 CHAIN CONFORMATION .........................................................9 1.2.1.4 MACROMOLECULAR STRUCTURE IN SOLUTION ...........................12 1.2.1.5 PRIMARY, SECONDARY, TERTIARY AND QUATERNARY STRUCTURE .........................................................................18 1.2.2 BIOLOGICAL MACROMOLECULES .........................................................19 1.2.2.1 STRUCTURE OF DNA ...........................................................19 1.2.2.2 STRUCTURE OF PROTEINS.......................................................21 1.2.2.3 STRUCTURE OF POLYSACCHARIDES ..........................................25 1.2.3 CARBON NANOMATERIALS .................................................................27 1.2.4 INTELLIGENT MACROMOLECULES .........................................................28 1.3 THE CONCEPT OF SMART DEVICES..................................................................29 1.3.1 SELF-ASSEMBLING AND MICRO-/NANO-FABRICATION.............................29 1.3.2 FUNCTIONAL STRUCTURES AND SMART DEVICES ....................................31 1.4 REFERENCES .................................................................................................35 PART I. INTELLIGENT MACROMOLECULES 2 CONDUCTING POLYMERS ........................................................................................41 2.1 INTRODUCTION ...............................................................................................41 2.2 CONJUGATED CONDUCTING POLYMERS.............................................................42 2.2.1 STRUCTURE AND PROPERTIES...............................................................42 X TABLE OF CONTENTS 2.2.1.1 * - * * CONJUGATION..........................................................42 2.2.1.2 DOPING............................................................................43 2.2.2 SYNTHESIS ......................................................................................50 2.2.2.1 SYNTHESES OF SOLUBLE CONJUGATED POLYMERS ...................51 2.2.2.2 SYNTHESES OF CONJUGATED POLYMER FILMS........................60 2.3 CHARGE TRANSFER POLYMERS.........................................................................63 2.3.1 ORGANIC CHARGE TRANSFER COMPLEXES...........................................63 2.3.2 POLYMERIC CHARGE TRANSFER COMPLEXES .......................................64 2.3.3 CHARGE TRANSFER BETWEEN FULLERENE C 60 AND POLYMERS ...............67 2.4 IONICALLY CONDUCTING POLYMERS .................................................................68 2.4.1 STRUCTURAL FEATURES OF POLYMER ELECTROLYTES ................................68 2.4.2 TRANSPORT PROPERTIES AND CHAIN DYNAMICS ..................................69 2.5 CONDUCTIVELY FILLED POLYMERS ...................................................................72 2.5.1 POLYMERS FILLED WITH CONDUCTIVE SOLIDS......................................72 2.5.2 POLYMERS FILLED WITH CONJUGATED CONDUCTING POLYMERS .............76 2.6 REFERENCES .................................................................................................76 3 STIMULI-RESPONSIVE POLYMERS ............................................................................81 3.1 INTRODUCTION ...............................................................................................81 3.2 SOLVENT-RESPONSIVE POLYMERS ....................................................................82 3.3 TEMPERATURE-RESPONSIVE POLYMERS ............................................................86 3.3.1 TEMPERATURE-RESPONSIVE POLYMERS IN SOLUTION ............................86 3.3.2 TEMPERATURE-RESPONSIVE POLYMERS ON SURFACE ............................91 3.4 PH-RESPONSIVE POLYMERS............................................................................95 3.5 IONICALLY RESPONSIVE POLYMERS .................................................................97 3.6 ELECTRICALLY RESPONSIVE POLYMERS .............................................................98 3.7 PHOTOELECTROCHROMISM.............................................................................103 3.8 PHOTORESPONSIVE POLYMERS ......................................................................104 3.9 BIOCHROMISM.. .....................................................................................111 3.10 PHOTOMODULATION OF ENZYME ACTIVITY .....................................................113 3.11 REFERENCES ...............................................................................................113 4 DENDRIMERS AND FULLERENES ............................................................................117 4.1 INTRODUCTION .............................................................................................117 4.2 DENDRIMERS ..............................................................................................119 4.2.1 SYNTHESIS ....................................................................................119 4.2.1.1 DIVERGENT APPROACH .....................................................119 4.2.1.2 CONVERGENT-GROWTH APPROACH......................................122 4.2.1.3 OTHER MISCELLANEOUS APPROACHES.................................123 4.2.2 STRUCTURE.....................................................................................127 4.2.2.1 DENDRIMERS WITH A METAL CORE .....................................127 4.2.2.2 DENDRIMERS WITH A HOLLOW CORE ..................................127 4.2.2.3 DENDRIMERS WITH A HYDROPHOBIC INTERIOR AND HYDROPHILIC EXTERIOR LAYER ..........................................129 4.2.2.4 DENDRIMERS WITH GUEST MOLECULES TRAPPED IN THEIR CAVITIES ................................................................131 TABLE OF CONTENTS XI 4.2.2.5 DENDRIMERS WITH DIFFERENT TERMINAL GROUPS DENDRITIC BLOCK COPOLYMERS.....................................132 4.3 FULLERENE C 60 ............................................................................................133 4.3.1 CHEMISTRY OF C 60 ........................................................................134 4.3.1.1 ADDITION REACTIONS .......................................................134 4.3.1.2 DIMERIZATION AND POLYMERIZATION.................................139 4.3.2 POLYMERIC DERIVATIVES OF C 60 .....................................................140 4.3.2.1 FULLERENE CHARM BRACELETS ...........................................141 4.3.2.2 FULLERENE PEARL NECKLACES ............................................144 4.3.2.3 FLAGELLENES .....................................................................146 4.4 REFERENCES ...............................................................................................150 5 CARBON NANOTUBES ...........................................................................................157 5.1 INTRODUCTION .............................................................................................157 5.2 STRUCTURE ..................................................................................................159 5.3 PROPERTY ...................................................................................................160 5.4 SYNTHESIS..................................................................................................165 5.4.1 MULTI-WALL CARBON NANOTUBES (MWNTS)..................................165 5.4.2 SINGLE-WALL CARBON NANOTUBES (SWNTS)..................................166 5.5 PURIFICATION ..............................................................................................167 5.6 MICROFABRICATION......................................................................................168 5.6.1 OPENING, FILLING AND CLOSING.....................................................168 5.6.2 FILLING.........................................................................................170 5.6.3 TIP-CLOSING .................................................................................172 5.7 CHEMICAL MODIFICATION............................................................................172 5.7.1 END-FUNCTIONALIZATION.................................................................173 5.7.1.1 OXIDATION OF CARBON NANOTUBES...................................173 5.7.1.2 COVALENT-COUPLING VIA THE OXIDIZED NANOTUBE ENDS .................................174 5.7.2 MODIFICATION OF NANOTUBE OUTERWALL.........................................179 5.7.2.1 SIDEWALL FLUORINATION OF CARBON NANOTUBES ................179 5.7.2.2 THE ATTACHMENT OF DICHLOROCARBENE TO THE SIDEWALL........................................................................181 5.7.2.3 MODIFICATION VIA 1,3-DIPOLAR CYCLOADDITION OF AZOMETHINE YLIDES .......................................................181 5.7.2.4 THE REACTION BETWEEN ANILINE AND CARBON NANOTUBES.....................................................................182 5.7.3 FUNCTIONALIZATION OF CARBON NANOTUBE INNERWALL......................184 5.7.4 OTHER PHYSICAL CHEMISTRIES OF CARBON NANOTUBES.....................185 5.7.4.1 MODIFICATION OF CARBON NANOTUBES VIA MECHANOCHEMICAL REACTIONS ........................................185 5.7.4.2 MODIFICATION OF CARBON NANOTUBES VIA ELECTROCHEMICAL REACTIONS ...........................................186 5.7.4.3 MODIFICATION OF CARBON NANOTUBES VIA PHOTOCHEMICAL REACTIONS .............................................187 5.8 NON-COVALENT CHEMISTRY OF CARBON NANOTUBES ......................................188 XII TABLE OF CONTENTS 5.8.1 NON-COVALENT ATTACHMENT OF SMALL MOLECULES ONTO THE NANOTUBE SIDEWALL.....................................................................188 5.8.2 NON-COVALENT WRAPPING OF POLYMER CHAINS ONTO THE NANOTUBE SIDEWALL.....................................................................190 5.9 MODIFICATION OF ALIGNED CARBON NANOTUBES ...........................................191 5.9.1 PLASMA ACTIVATION OF ALIGNED CARBON NANOTUBES .....................192 5.9.2 ACID OXIDATION WITH STRUCTURAL PROTECTION ................................194 5.9.3 ELECTROCHEMICAL MODIFICATION OF ALIGNED CARBON NANOTUBES...................................................................................195 5.10 REFERENCES ...............................................................................................196 PART II. FROM INTELLIGENT MACROMOLECULES TO SMART DEVICES 6 ORDERED AND PATTERNED MACROMOLECULES ......................................................203 6.1 INTRODUCTION .............................................................................................203 6.2 ORIENTED AND PATTERNED CONJUGATED POLYMERS.........................................204 6.2.1 THE NECESSITY.............................................................................204 6.2.1.1 FOR ELECTRONIC APPLICATIONS..........................................204 6.2.1.2 FOR NON-LINEAR OPTICAL APPLICATIONS ............................205 6.2.2 ORIENTED CONJUGATED POLYMERS ..................................................206 6.2.2.1 SYNTHESIS-INDUCED ORIENTATION .....................................206 6.2.2.2 LIQUID CRYSTALLINE CONJUGATED POLYMERS .....................208 6.2.2.3 POST-SYNTHESIS ORIENTATION............................................213 6.2.3 PATTERNED CONJUGATED POLYMERS.................................................215 6.2.3.1 PHOTOLITHOGRAPHIC PATTERNING........................................217 6.2.3.2 PATTERN FORMATION BY SELF-ASSEMBLING .........................220 6.2.3.3 PATTERN FORMATION BY POLYMER PHASE SEPARATION .........223 6.2.3.4 PLASMA PATTERNING OF CONJUGATED POLYMERS .................225 6.3 ALIGNED AND PATTERNED CARBON NANOTUBES ..............................................228 6.3.1 THE NECESSITY.............................................................................228 6.3.1.1 MOLECULAR COMPUTING...................................................229 6.3.1.2 ELECTRON EMITTERS..........................................................229 6.3.1.3 FOR MEMBRANE APPLICATIONS.........................................229 6.3.2 HORIZONTALLY ALIGNED AND MICROPATTERNED CARBON NANOTUBES...................................................................................230 6.3.2.1 HORIZONTALLY ALIGNED CARBON NANOTUBES .....................230 6.3.2.2 MICROPATTERNS OF HORIZONTALLY ALIGNED CARBON NANOTUBES.....................................................................232 6.3.3 PERPENDICULARLY ALIGNED AND MICROPATTERNED CARBON NANOTUBES ..................................................................................236 6.3.3.1 PERPENDICULARLY ALIGNED CARBON NANOTUBES ................236 6.3.3.2 MICROPATTERNS OF PERPENDICULARLY ALIGNED CARBON NANOTUBES ........................................................239 6.3.3.3 PERPENDICULARLY ALIGNED AND MICROPATTERNED CARBON NANOTUBES BY SELF-ASSEMBLY ........................................249 6.4 ALIGNED NON-CARBON NANOTUBES..............................................................252 TABLE OF CONTENTS XIII 6.4.1 ALIGNED B:C:N NANOTUBES .........................................................252 6.4.2 ALIGNED INORGANIC NANOTUBES ....................................................252 6.4.3 ALIGNED POLYMER NANOTUBES ......................................................253 6.4.4 ALIGNED PEPTIDE NANOTUBES ............................................................253 6.5 REFERENCES ...............................................................................................254 7 MACROMOLECULAR NANOSTRUCTURES ...................................................................265 7.1 INTRODUCTION .............................................................................................265 7.2 POLYMER NANOPARTICLES ............................................................................266 7.2.1 POLYMER NANOSPHERES BY POLYMERIZATION.......................................266 7.2.2 DISPERSION OF PRE-FORMED POLYMERS...........................................268 7.2.2.1 POLYMER NANOSPHERE BY EMULSIFYING DISPERSION ........269 7.2.2.2 POLYMER NANOSPHERES BY SUPERCRITICAL FLUID METHOD ..........................................................................269 7.3 SELF-ASSEMBLING OF PRE-FORMED POLYMERS................................................269 7.3.1 SHELL-CORE POLYMER NANOPARTICLES .............................................270 7.4 POLYMER NANOWIRES, NANOTUBES AND NANOFIBERS.....................................275 7.4.1 TIP-ASSISTED SYNTHESES OF POLYMER NANOWIRES ..........................275 7.4.2 TEMPLATE SYNTHESES OF POLYMER NANOWIRES, NANOTUBES AND NANOFIBERS...........................................................................279 7.4.3 ELECTROSPINNING OF POLYMER NANOFIBERS.....................................282 7.5 POLYMER NANOFILMS..................................................................................286 7.5.1 POLYMER NANOFILMS BY SOLUTION CASTING ...................................286 7.5.2 POLYMER NANOFILMS BY PLASMA POLYMERIZATION .........................287 7.5.3 POLYMER NANOFILMS BY LANGMUIR-BLODGETT DEPOSITION .............288 7.5.4 POLYMER BRUSHES BY END-ADSORPTION .........................................289 7.5.4.1 POLYMER MUSHROOMS ....................................................296 7.5.4.2 POLYMER BRUSHES ..........................................................297 7.6 NANOSTRUCTURED POLYMERS WITH SPECIAL ARCHITECTURES .............................300 7.6.1 SELF-ASSEMBLY OF ORDERED NANOPOROUS POLYMERS......................300 7.6.2 COAXIAL POLYMER NANOWIRES AND NANOFIBERS.............................302 7.6.3 MULTILAYERED POLYMER NANOFILMS...............................................305 7.6.4 NANOSTRUCTURED POLYMERS BY PHASE SEPARATION .........................309 7.7 REFERENCES ...............................................................................................311 PART III. SMART DEVICES 8 ELECTRONIC DEVICES ..............................................................................................321 8.1 INTRODUCTION .............................................................................................321 8.2 CONJUGATED POLYMER DEVICES ..................................................................321 8.2.1 ELECTROMAGNETIC SHIELDING .........................................................322 8.2.2 SCHOTTKY BARRIER DIODES AND FIELD-EFFECT TRANSISTORS................326 8.2.2.1 SCHOTTKY BARRIER DIODES.................................................326 8.2.2.2 FIELD-EFFECT TRANSISTORS ..................................................329 8.3 C 60 SUPERCONDUCTIVITY .............................................................................330 8.4 POLYMER BATTERIES AND CARBON NANOTUBE SUPERCAPACITORS......................333 XIV TABLE OF CONTENTS 8.4.1 CONDUCTING POLYMER BATTERIES ...................................................333 8.4.2 BIOFUEL CELLS ..............................................................................336 8.4.3 CARBON NANOTUBE SUPERCAPACITORS.............................................337 8.5 CARBON NANOTUBE NANOELECTRONICS..........................................................338 8.5.1 CARBON NANOTUBE NANOWIRES.....................................................338 8.5.2 CARBON NANOTUBE SUPERCONDUCTORS ...........................................340 8.5.3 CARBON NANOTUBE RINGS.............................................................340 8.5.4 CARBON NANOTUBE NANOCIRCUITS..................................................342 8.5.5 CARBON NANOTUBE-BASED RANDOM ACCESS MEMORY (RAM) FOR MOLECULAR COMPUTING..............................................345 8.6 DNA MOLECULAR WIRES AND DNA COMPUTING .........................................346 8.6.1 DNA MOLECULAR WIRES...............................................................346 8.6.2 DNA COMPUTING ON CHIPS ........................................................351 8.7 REFERENCES ...............................................................................................353 9 PHOTONIC DEVICES ..............................................................................................357 9.1 INTRODUCTION .............................................................................................357 9.2 LIGHT-EMITTING POLYMER DISPLAYS ............................................................359 9.2.1 DEVICE CONSTRUCTION ..................................................................359 9.2.2 QUANTUM EFFICIENCY ...................................................................361 9.2.3 INTERFACE ENGINEERING.................................................................364 9.2.3.1 CHEMICAL DERIVATIZATION OF THE METAL ELECTRODES.........364 9.2.3.2 POLYMER-POLYMER INTERFACE...........................................366 9.2.4 MODIFICATION OF THE CHARGE INJECTION CHARACTERISTICS ................368 9.2.5 LIGHT-EMITTING ELECTROCHEMICAL CELLS (LECS)............................368 9.2.6 COLOR TUNING..............................................................................372 9.2.7 PATTERNED EMISSION ....................................................................375 9.3 LASER ACTION OF CONJUGATED POLYMERS ....................................................376 9.4 CARBON NANOTUBE DISPLAYS......................................................................378 9.5 BUCKY LIGHT BULBS AND OPTICAL LIMITERS.................................................381 9.5.1 C 60 LIGHT BULBS...........................................................................381 9.5.2 C 60 OPTICAL LIMITERS ...................................................................381 9.6 PHOTOVOLTAIC CELLS ...................................................................................383 9.6.1 POLYMER PHOTOVOLTAIC CELLS CONTAINING FULLERENES ...................383 9.6.2 POLYMER PHOTOVOLTAIC CELLS CONTAINING CARBON NANOTUBES ......385 9.7 LIGHT-HARVESTING DENDRIMERS ..................................................................387 9.8 ELECTRONIC WINDOWS, ELECTROCHROMIC DISPLAYS AND ELECTRONIC PAPERS ..............................................................................392 9.8.1 ELECTROCHROMIC WINDOWS ..........................................................392 9.8.2 ELECTROCHROMIC DISPLAYS............................................................393 9.8.3 ELECTRONIC PAPERS .......................................................................395 9.9 REFERENCES ...............................................................................................397 10 SENSORS AND SENSOR ARRAYS .............................................................................405 10.1 INTRODUCTION .............................................................................................405 10.2 CONJUGATED POLYMERS SENSORS .................................................................406 10.2.1 CONJUGATED POLYMER SENSORS WITH ELECTRICAL TRANSDUCERS ........406 TABLE OF CONTENTS XV 10.2.1.1 CONJUGATED POLYMER CONDUCTOMETRIC SENSORS .............407 10.2.1.2 CONJUGATED POLYMER POTENTIOMETRIC SENSORS ...............412 10.2.1.3 CONJUGATED POLYMER AMPEROMETRIC SENSORS ...............412 10.2.1.4 CONJUGATED POLYMER VOLTAMMETRIC SENSORS.................413 10.2.2 CONJUGATED POLYMER SENSORS WITH OPTICAL TRANSDUCERS............413 10.2.2.1 CONJUGATED POLYMER FLUORESCENT ION CHEMOSENSORS ...............................................................413 10.2.2.2 CONJUGATED POLYMER FLUORESCENT TNT SENSORS ...........418 10.2.2.3 CONJUGATED POLYMER LIGHT-HARVESTING TURN-ON SENSORS .........................................................................420 10.3 CHARGE TRANSFER POLYMER SENSORS ...........................................................422 10.4 IONICALLY CONDUCTING POLYMER SENSORS ...................................................422 10.5 CONDUCTIVELY FILLED POLYMERS SENSORS....................................................423 10.5.1 CONDUCTIVELY FILLED POLYMER HUMIDITY SENSORS........................424 10.5.2 CONDUCTIVELY FILLED POLYMER GAS SENSORS.................................425 10.5.3 CONDUCTING POLYMER-COATED FABRIC SENSORS: SMART TEXTILES.............................................................................425 10.6 DENDRIMER SENSORS ..................................................................................426 10.6.1 DENDRIMER GAS SENSORS .............................................................426 10.6.1.1 DENDRIMER IODINE (VAPOR) SENSOR................................426 10.6.1.2 DENDRIMER SO 2 GAS SENSORS.........................................426 10.6.1.3 DENDRIMER CO GAS SENSORS .........................................427 10.6.2 DENDRIMER SENSORS FOR CARBONYL COMPOUNDS ...........................428 10.7 FULLERENE C 60 SENSORS ..............................................................................428 10.7.1 FULLERENE HUMIDITY SENSORS.......................................................428 10.7.2 FULLERENE GAS SENSORS................................................................430 10.8 CARBON NANOTUBE SENSORS .......................................................................431 10.8.1 CARBON NANOTUBE GAS SENSORS ..................................................431 10.8.1.1 CARBON NANOTUBE AMMONIA AND NITROGEN DIOXIDE SENSORS .........................................................................431 10.8.1.2 CARBON NANOTUBE HYDROGEN SENSORS ...........................433 10.8.1.3 CARBON NANOTUBE OXYGEN SENSORS ..............................434 10.8.1.4 CARBON NANOTUBE THERMOELECTRIC NANONOSE ...............435 10.8.1.5 CARBON NANOTUBE CARBON DIOXIDE SENSORS..................439 10.8.2 CARBON NANOTUBE PRESSURE AND TEMPERATURE SENSORS ...............440 10.8.3 CARBON NANOTUBE CHEMICAL FORCE SENSORS ...............................442 10.8.4 CARBON NANOTUBE RESONATOR MASS SENSORS ...............................443 10.8.5 CARBON NANOTUBE GLUCOSE SENSORS............................................444 10.9 DNA SENSORS...........................................................................................446 10.9.1 DNA SENSORS BASED ON OLIGONUCLEOTIDE-FUNCTIONALIZED POLYPYRROLES ...............................................................................447 10.9.2 DNA DIAGNOSTIC BIOSENSORS ......................................................447 10.9.3 DNA SENSOR FOR DETECTION OF HEPATITIS B VIRUS .......................447 10.9.4 DNA FLUORESCENT SENSOR FOR LEAD IONS.....................................448 10.9.5 DNA MOLECULAR BREAK LIGHTS....................................................449 10.9.6 DNA QUARTZ OSCILLATORS AND CANTILEVERS...................................450 10.10 SENSORS ARRAYS.........................................................................................451 XVI TABLE OF CONTENTS 10.10.1 CONDUCTING POLYMER ELECTRONIC NOSES...................................452 10.10.2 DNA ARRAYS...............................................................................454 10.10.3 PROTEIN ARRAYS ............................................................................455 10.11 REFERENCES ...............................................................................................456 11 ACTUATORS AND NANOMECHANICAL DEVICES .......................................................461 11.1 INTRODUCTION .............................................................................................461 11.2 CONDUCTING POLYMER ACTUATORS ...............................................................462 11.2.1 SELF-POWERED ACTUATORS .............................................................465 11.2.2 CONDUCTING POLYMER MICROTWEEZERS..........................................466 11.3 ACTUATORS BASED ON COMPOSITES OF ION-EXCHANGE POLYMERS AND METALS ......................................................................................................468 11.4 RESPONSIVE POLYMER ACTUATORS ...............................................................471 11.5 CARBON NANOTUBE ACTUATORS ....................................................................475 11.6 SMART ELECTROMECHANICAL DEVICES BASED ON CARBON NANOTUBES ...........478 11.6.1 CARBON NANOTUBE QUANTUM RESISTORS AND NANORESONATORS.......478 11.6.2 CARBON NANOTUBE NANOPROBES...................................................481 11.6.3 CARBON NANOTUBE NANOTWEEZERS ...............................................483 11.6.4 CARBON NANOTUBE BEARINGS, SWITCHES AND GEARS ......................484 11.7 C 60 ABACUS AND FULLERENE VEHICLES.........................................................487 11.8 SMART DEVICES BASED ON BIOMOLECULES ...................................................488 11.8.1 FLAGELLAR MOTORS.........................................................................488 11.8.2 DNA SWITCHES ...........................................................................488 11.9 REFERENCES ...............................................................................................489 INDEX .......................................................................................................................491
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id	DE-604.BV017599482
illustrated	Illustrated
indexdate	2024-07-09T19:19:46Z
institution	BVB
isbn	1852335106
language	English
oai_aleph_id	oai:aleph.bib-bvb.de:BVB01-010588828
oclc_num	55051066
open_access_boolean
owner	DE-91G DE-BY-TUM DE-703
owner_facet	DE-91G DE-BY-TUM DE-703
physical	XVI, 496 S. Ill., graph. Darst.
publishDate	2004
publishDateSearch	2004
publishDateSort	2004
publisher	Springer
record_format	marc
series2	Engineering materials and processes
spelling	Dai, Liming Verfasser aut Intelligent macromolecules for smart devices from materials synthesis to device applications Liming Dai London [u.a.] Springer 2004 XVI, 496 S. Ill., graph. Darst. txt rdacontent n rdamedia nc rdacarrier Engineering materials and processes Includes bibliographical references and index Intelligent control systems Nanotechnology Makromolekül (DE-588)4037172-4 gnd rswk-swf Polymere (DE-588)4046699-1 gnd rswk-swf Intelligenter Werkstoff (DE-588)4274825-2 gnd rswk-swf Intelligente Konstruktion (DE-588)4364681-5 gnd rswk-swf Makromolekül (DE-588)4037172-4 s Intelligenter Werkstoff (DE-588)4274825-2 s DE-604 Polymere (DE-588)4046699-1 s Intelligente Konstruktion (DE-588)4364681-5 s DNB Datenaustausch application/pdf http://bvbr.bib-bvb.de:8991/F?func=service&doc_library=BVB01&local_base=BVB01&doc_number=010588828&sequence=000001&line_number=0001&func_code=DB_RECORDS&service_type=MEDIA Inhaltsverzeichnis
spellingShingle	Dai, Liming Intelligent macromolecules for smart devices from materials synthesis to device applications Intelligent control systems Nanotechnology Makromolekül (DE-588)4037172-4 gnd Polymere (DE-588)4046699-1 gnd Intelligenter Werkstoff (DE-588)4274825-2 gnd Intelligente Konstruktion (DE-588)4364681-5 gnd
subject_GND	(DE-588)4037172-4 (DE-588)4046699-1 (DE-588)4274825-2 (DE-588)4364681-5
title	Intelligent macromolecules for smart devices from materials synthesis to device applications
title_auth	Intelligent macromolecules for smart devices from materials synthesis to device applications
title_exact_search	Intelligent macromolecules for smart devices from materials synthesis to device applications
title_full	Intelligent macromolecules for smart devices from materials synthesis to device applications Liming Dai
title_fullStr	Intelligent macromolecules for smart devices from materials synthesis to device applications Liming Dai
title_full_unstemmed	Intelligent macromolecules for smart devices from materials synthesis to device applications Liming Dai
title_short	Intelligent macromolecules for smart devices
title_sort	intelligent macromolecules for smart devices from materials synthesis to device applications
title_sub	from materials synthesis to device applications
topic	Intelligent control systems Nanotechnology Makromolekül (DE-588)4037172-4 gnd Polymere (DE-588)4046699-1 gnd Intelligenter Werkstoff (DE-588)4274825-2 gnd Intelligente Konstruktion (DE-588)4364681-5 gnd
topic_facet	Intelligent control systems Nanotechnology Makromolekül Polymere Intelligenter Werkstoff Intelligente Konstruktion
url	http://bvbr.bib-bvb.de:8991/F?func=service&doc_library=BVB01&local_base=BVB01&doc_number=010588828&sequence=000001&line_number=0001&func_code=DB_RECORDS&service_type=MEDIA
work_keys_str_mv	AT dailiming intelligentmacromoleculesforsmartdevicesfrommaterialssynthesistodeviceapplications

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