Verfügbarkeit: Redox systems under nano-space control

Redox systems under nano-space control: with 19 tables

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Bibliographische Detailangaben
Weitere Verfasser:	Hirao, Toshikazu (HerausgeberIn)
Format:	Buch
Sprache:	English
Veröffentlicht:	Berlin ; Heidelberg Springer 2006
Schlagworte:	Redoxsystem Nanostruktur Aufsatzsammlung
Online-Zugang:	Inhaltstext Inhaltsverzeichnis
Beschreibung:	Literaturangaben
Beschreibung:	XVIII, 295 S. Ill., graph. Darst. 24 cm
ISBN:	9783540295792 3540295798

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MARC


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245	1	0	\|a Redox systems under nano-space control \|b with 19 tables \|c Toshikazu Hirao (ed.)
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300			\|a XVIII, 295 S. \|b Ill., graph. Darst. \|c 24 cm
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Datensatz im Suchindex

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adam_text	CONTENTS PARTI REDOXSYSTEMSVIAD, YY -CONJUGATION 1 CONJUGATEDCOMPLEXESWITHQUINONEDIIMINEDERIVATIVES TOSHIYUKIMORIUCHI,TOSHIKAZUHIRAO ....................... 3 1.1 INTRODUCTION ............................................ 4 1.2 ARCHITECTURALLYCONTROLLED FORMATION OFCONJUGATEDCOMPLEXESWITH1,4-BENZOQUINONEDIIMINES.... 5 1.3 REDOX-SWITCHING PROPERTIES OF CONJUGATED COMPLEXES WITH1,4-BENZOQUINONEDIIMINES........................... 17 1.4 CONCLUSION.............................................. 24 1.5 REFERENCES.............................................. 25 2 REALIZINGTHEULTIMATEAMPLIFICATION INCONDUCTINGPOLYMERSENSORS: ISOLATEDNANOSCOPICPATHWAYS TIMOTHY M. SWAGER ....................................... 29 2.1 DIMENSIONALITYINMOLECULAR-WIRESENSORS.................. 29 2.2 ANALYTE-TRIGGEREDBARRIERCREATIONINCONDUCTINGPOLYMERS .. 32 2.3 ISOLATEDNANOSCOPICPATHWAYS............................. 34 2.4 LANGMUIR-BLODGETTAPPROACHESTONANOFIBRILS .............. 34 2.5 MOLECULARSCAFFOLDSFORTHEISOLATIONOFMOLECULARWIRES...... 37 2.6 SUMMARYANDFUTUREPROSPECTS............................ 43 2.7 REFERENCES.............................................. 43 3 METAL-CONTAINING YY -CONJUGATEDMATERIALS MICHAEL O. WOLF .......................................... 45 3.1 INTRODUCTION ............................................ 46 3.1.1 YY -CONJUGATEDMATERIALS................................... 46 3.1.2 NANOMATERIALS........................................... 46 3.2 METAL-COMPLEX-CONTAININGCONJUGATEDMATERIALS............ 47 3.2.1 PREPARATION............................................. 47 3.2.2 PROPERTIES .............................................. 49 3.3 METAL-NANOPARTICLE-CONTAININGCONJUGATEDMATERIALS........ 51 3.3.1 PREPARATION............................................. 51 VIII CONTENTS 3.3.2 PROPERTIES .............................................. 51 3.4 APPLICATIONS ............................................ 52 3.5 CONCLUSIONS............................................. 53 3.6 REFERENCES.............................................. 53 4 REDOXACTIVEARCHITECTURESANDCARBON-RICHRUTHENIUMCOMPLEXES ASMODELSFORMOLECULARWIRES STEPHANERIGAUT,DANIELTOUCHARD,PIERREH.DIXNEUF ......... 55 4.1 INTRODUCTION ............................................ 56 4.2 RUTHENIUMALLENYLIDENEANDACETYLIDEBUILDINGBLOCKS: BASICPROPERTIES ......................................... 57 4.2.1 SYNTHETICROUTES......................................... 57 4.2.2 REDOXPROPERTIES ........................................ 60 4.2.2.1 OXIDATIONOFRUTHENIUMMETALACETYLIDES: STABLERU II /RU III SYSTEMS AND A NEW ROUTE TOALLENYLIDENEMETALCOMPLEXES .......................... 60 4.2.2.2 REDUCTIONOFMETALALLENYLIDENES: ACCESSTOSTABLE ORGANIC RADICALSANDAROUTETOACETYLIDES . 61 4.3 BIMETALLICCOMPLEXESFROMTHERU(DPPE) 2 SYSTEM............ 63 4.3.1 ABINUCLEARBIS-ACETYLIDERUTHENIUMCOMPLEX.............. 63 4.3.2 BIS-ALLENYLIDENEBRIDGESLINKINGTWORUTHENIUMCOMPLEXES . 64 4.3.3 C 7 BRIDGEDBINUCLEARRUTHENIUMCOMPLEXES................ 67 4.4 CONNECTIONOFTWOCARBON-RICHCHAINS WITHTHERUTHENIUMSYSTEM............................... 71 4.5 TRIMETALLICANDOLIGOMERICMETALCOMPLEXES WITHCARBON-RICHBRIDGES ................................ 74 4.6 STARORGANOMETALLIC-CONTAININGMULTIPLEIDENTICALMETALSITES. 77 4.7 CONCLUSION.............................................. 79 4.8 REFERENCES.............................................. 79 5 MOLECULAR METAL WIRES BUILT FROM A LINEAR METAL ATOM CHAIN SUPPORTEDBYOLIGOPYRIDYLAMIDOLIGANDS CHEN-YUYEH,CHIH-CHIEHWANG,CHUN-HSIENCHEN, SHIE-MINGPENG .......................................... 85 5.1 INTRODUCTION ............................................ 86 5.2 SYNTHESISOFOLIGOPYRIDYLAMINELIGANDS .................... 87 5.3 DIMERIZATIONBYSELF-COMPLEMENTARYHYDROGENBONDING..... 90 5.4 COMPLEXATIONOFOLIGOPYRIDYLAMINELIGANDS................ 91 5.5 MONO-ANDDINUCULEARCOMPLEXES......................... 91 5.6 STRUCTURESOFLINEARMULTINUCLEARNICKELCOMPLEXES.......... 92 5.7 STRUCTURESOFLINEARMULTINUCLEARCOBALTCOMPLEXES ......... 98 5.8 STRUCTURESOFLINEARMULTINUCLEARCHROMIUMCOMPLEXES .....100 5.9 STRUCTURESOFTRIRUTHENIUMANDTRIRHODIUMCOMPLEXES ......103 5.10 COMPLEXESOFMODIFIEDLIGANDS............................104 CONTENTS IX 5.11 ELECTROCHEMICALPROPERTIESOFTHECOMPLEXES................105 5.12 SCANNINGTUNNELINGMICROSCOPYSTUDIES....................112 5.13 SUMMARY...............................................114 5.14 REFERENCES..............................................115 6 MULTIELECTRONREDOXCATALYSTS INMETAL-ASSEMBLEDMACROMOLECULARSYSTEMS TAKANEIMAOKA,KIMIHISAYAMAMOTO .......................119 6.1 INTRODUCTION ............................................119 6.2 MULTIELECTRONREDOXSYSTEMS..............................120 6.3 MULTINUCLEARCOMPLEXESASREDOXCATALYSTS.................122 6.4 MACROMOLECULE-METALCOMPLEXES..........................123 6.5 METALIONASSEMBLYONDENDRITICMACROMOLECULES...........124 6.6 CONCLUSION..............................................129 6.7 REFERENCES..............................................129 PARTII REDOXSYSTEMSVIACOORDINATIONCONTROL 7 TRIRUTHENIUMCLUSTEROLIGOMERS THATSHOWMULTISTEP/MULTIELECTRONREDOXBEHAVIOR TOMOHIKOHAMAGUCHI,TADASHIYAMAGUCHI,TASUKUITO ........133 7.1 INTRODUCTION ............................................133 7.2 SYNTHESESOFOLIGOMERS1AND2............................135 7.3 REDOXBEHAVIOROF1AND2 ................................136 7.4 CONCLUSION..............................................139 7.5 REFERENCES..............................................139 8 MOLECULARARCHITECTURE OFREDOX-ACTIVEMULTILAYEREDMETALCOMPLEXES BASEDONSURFACECOORDINATIONCHEMISTRY MASA-AKIHAGA ..........................................141 8.1 INTRODUCTION ............................................141 8.2 FABRICATIONOFMULTILAYERNANOARCHITECTURES BYSURFACECOORDINATIONCHEMISTRY........................142 8.2.1 LAYER-BY-LAYERASSEMBLYONSOLIDSURFACES .................142 8.2.2 MOLECULARDESIGNOFANCHORINGGROUPS FORCONTROLOFMOLECULARORIENTATIONONSURFACES ............143 8.2.3 MOLECULARDESIGNOFREDOX-ACTIVEMETALCOMPLEXUNITS FORTHECONTROLOFENERGYLEVELSONSURFACES.................146 8.3 CHEMICALFUNCTIONS OFREDOX-ACTIVEMULTILAYEREDCOMPLEXESONSURFACE..........148 8.3.1 ELECTRONTRANSFEREVENTSINMULTILAYERNANOSTRUCTURES........148 X CONTENTS 8.3.2 COMBINATORIALAPPROACH TOELECTROCHEMICALMOLECULARDEVICES INAMULTILAYERNANOSTRUCTUREONSURFACES...................149 8.3.3 SURFACEDNATRAPPINGBYIMMOBILIZEDMETALCOMPLEXES WITHINTERCALATORMOIETYTOWARDNANOWIRING................151 8.4 CONCLUSION..............................................153 8.5 REFERENCES..............................................153 9 PROGRAMMEDMETALARRAYSBYMEANS OFDESIGNABLEBIOLOGICALMACROMOLECULES KENTAROTANAKA, TOMOKO OKADA, MITSUHIKO SHIONOYA .........155 9.1 INTRODUCTION ............................................155 9.2 DNA-DIRECTEDMETALARRAYS...............................156 9.2.1 METAL-MEDIATEDBASEPAIRINGINDNA.......................156 9.2.2 SINGLE-SITEINCORPORATION OFAMETAL-MEDIATEDBASEPAIRINTODNA ....................157 9.2.3 DISCRETESELF-ASSEMBLEDMETALARRAYSINDNA...............159 9.3 PEPTIDE-DIRECTEDMETALARRAYS.............................161 9.3.1 DESIGNCONCEPT..........................................161 9.3.2 HETEROGENEOUSMETALARRAYSUSINGCYCLICPEPTIDES...........162 9.3.3 METALIONSELECTIVITYINSUPRAMOLECULARCOMPLEXATION .......163 9.4 CONCLUSION..............................................164 9.5 REFERENCES..............................................164 10 METAL-INCORPORATEDHOSTSFORCOOPERATIVE ANDRESPONSIVERECOGNITIONTOEXTERNALSTIMULUS TATSUYANABESHIMA,SHIGEHISAAKINE ........................167 10.1 INTRODUCTION ............................................167 10.2 PSEUDOMACROCYCLES FORCOOPERATIVEMOLECULARFUNCTIONALSYSTEMS...............168 10.3 OLIGO(N 2 O 2 -CHELATE)MACROCYCLES..........................172 10.3.1 DESIGNOFMACROCYCLICOLIGO(N 2 O 2 -CHELATE)LIGANDS ANDMETALLOHOSTS ........................................172 10.3.2 SYNTHESISANDSTRUCTUREOFTRIS(N 2 O 2 -CHELATE)MACROCYCLES ... 173 10.4 ACYCLICOLIGO(N 2 O 2 -CHELATE)LIGANDS.......................174 10.4.1 DESIGNOFACYCLICOLIGO(N 2 O 2 -CHELATE)LIGANDS..............174 10.4.2 COMPLEXESOFANEWN 2 O 2 -CHELATELIGAND,SALAMO...........175 10.4.3 SYNTHESIS,STRUCTURE,ANDPROPERTIES OFACYCLICOLIGO(N 2 O 2 -CHELATE)LIGANDS ....................176 10.5 CONCLUSION..............................................177 10.6 REFERENCES..............................................177 CONTENTS XI 11 SYNTHESISOFPOLY(BINAPHTHOL)VIACONTROLLEDOXIDATIVECOUPLING SHIGEKIHABAUE,BUNPEIHATANO ............................179 11.1 INTRODUCTION ............................................179 11.2 ASYMMETRICOXIDATIVECOUPLING WITHDINUCLEARMETALCOMPLEXES...........................181 11.3 OXIDATIVECOUPLINGPOLYMERIZATIONOFPHENOLS ..............183 11.4 OXIDATIVECOUPLINGPOLYMERIZATION OF2,3-DIHYDROXYNAPHTHALENE..............................184 11.5 CONCLUSION..............................................188 11.6 REFERENCES..............................................188 PARTIII REDOXSYSTEMSVIAMOLECULARCHAINCONTROL 12 NANOMECCANO YILIU,AMARH.FLOOD,J.FRASERSTODDART ....................193 12.1 INTRODUCTION ............................................194 12.2 REDOX-CONTROLLABLEMOLECULARSWITCHESINSOLUTION ..........196 12.2.1 BISTABLE[2]CATENANES ....................................196 12.2.2 BISTABLE[2]ROTAXANES ....................................197 12.2.3 SELF-COMPLEXINGMOLECULARSWITCHES .......................198 12.3 APPLICATIONOFREDOX-CONTROLLABLEMOLECULARMACHINES INELECTRONICDEVICES.....................................201 12.4 APPLICATIONOFREDOX-CONTROLLABLEMOLECULARMACHINES INMECHANICALDEVICES....................................204 12.4.1 SWITCHINGINLANGMUIR-BLODGETTFILM......................205 12.4.2 MOLECULARMACHINESFUNCTIONINGASNANOVALVES .............207 12.4.3 ARTIFICIALMOLECULARMUSCLES...............................208 12.5 CONCLUSIONS.............................................211 12.6 REFERENCES..............................................212 13 THROUGH-SPACECONTROLOFREDOXREACTIONS USINGINTERLOCKEDSTRUCTUREOFROTAXANES NOBUHIROKIHARA,TOSHIKAZUTAKATA ........................215 13.1 INTRODUCTION ............................................215 13.2 REDOX BEHAVIOR AND CONFORMATION OFFERROCENE-END-CAPPEDROTAXANE........................217 13.3 REDUCTIONOFKETONEBYROTAXANE BEARINGADIHYDRONICOTINAMIDEGROUP .....................225 13.4 CONCLUSION..............................................230 13.5 REFERENCES..............................................231 XII CONTENTS 14 METAL-CONTAININGSTARANDHYPERBRANCHEDPOLYMERS MASAMIKAMIGAITO .......................................233 14.1 INTRODUCTION ............................................233 14.2 METAL-CONTAININGSTARPOLYMERS...........................235 14.2.1 METAL-CONTAININGSTARPOLYMERSWITHASMALL ANDWELL-DEFINEDNUMBEROFARMS.........................236 14.2.2 METAL-CONTAININGSTARPOLYMERS WITHALARGEANDSTATISTICALLYDISTRIBUTEDNUMBEROFARMS.... 240 14.3 METAL-CONTAININGHYPERBRANCHEDPOLYMERS.................243 14.4 CONCLUDINGREMARKS.....................................245 14.5 REFERENCES..............................................246 15 ELECTRONICPROPERTIESOFHELICALPEPTIDEDERIVATIVES ATASINGLEMOLECULARLEVEL SHUNSAKU KIMURA, KAZUYA KITAGAWA, KAZUYUKI YANAGISAWA, TOMOYUKI MORITA ........................................ 249 15.1 MOLECULARELECTRONICS ....................................249 15.2 ELECTRONTRANSFERTHROUGHMOLECULES ......................250 15.3 ELECTRONICPROPERTIESOFHELICALPEPTIDES....................251 15.4 ELECTRONTRANSFERMECHANISMOVERALONGDISTANCE ..........254 15.5 EFFECTOFLINKERSONELECTRONTRANSFER ......................254 15.6 HELICAL-PEPTIDESCAFFOLDFORELECTRONHOPPING...............256 15.7 PHOTOCURRENTGENERATIONWITHHELICALPEPTIDES CARRYINGNAPHTHYLGROUPS................................259 15.8 CONCLUSION..............................................261 15.9 REFERENCES..............................................261 16 CONSTRUCTIONOFREDOX-INDUCEDSYSTEMS USINGANTIGEN-COMBININGSITESOFANTIBODIES ANDFUNCTIONALIZATIONOFANTIBODYSUPRAMOLECULES HIROYASUYAMAGUCHI,AKIRAHARADA ........................263 16.1 INTRODUCTION ............................................264 16.2 PHOTOINDUCEDELECTRON TRANSFER FROM PORPHYRINS TOELECTRONACCEPTORMOLECULES............................266 16.2.1 MONOCLONALANTIBODIES FOR MESO -TETRAKIS(4-CARBOXYPHENYL)PORPHYRIN(TCPP) .......267 16.2.2 PHOTOINDUCEDELECTRONTRANSFERFROMAPORPHYRIN TOANELECTRONACCEPTORINANANTIBODY-COMBININGSITE ......273 16.3 PEROXIDASEACTIVITYOFFE-PORPHYRIN-ANTIBODYCOMPLEXES .... 275 16.3.1 PREPARATIONOFMONOCLONALANTIBODIES AGAINSTCATIONICPORPHYRINS ..............................276 16.3.2 PEROXIDASEACTIVITYOFANTIBODY-FE-TMPYPCOMPLEX.........280 16.4 DENDRITICANTIBODYSUPRAMOLECULES........................282 CONTENTS XIII 16.5 LINEARANTIBODYSUPRAMOLECULES:APPLICATION FORNOVELBIOSENSINGMETHOD..............................285 16.5.1 ANTIVIOLOGENANTIBODIES..................................286 16.5.2 APPLICATIONSFORHIGHLYSENSITIVEDETECTIONMETHOD OFMETHYLVIOLOGENBYSUPRAMOLECULARCOMPLEXFORMATION BETWEENANTIBODIESANDDIVALENTANTIGENS..................287 16.6 CONCLUSIONS.............................................289 16.7 REFERENCES..............................................290 SUBJECTINDEX .....................................................293 SPRINGERPRINT_0502_ACRO6.JOBOPTIONS /ASCII85ENCODEPAGES FALSE /ALLOWTRANSPARENCY FALSE /AUTOPOSITIONEPSFILES TRUE /AUTOROTATEPAGES /NONE /BINDING /LEFT /CALGRAYPROFILE (GRAY GAMMA 2.2) /CALRGBPROFILE (ADOBE RGB 0501998 051) /CALCMYKPROFILE (U.S. WEB COATED 050SWOP 051 V2) /SRGBPROFILE (SRGB IEC61966-2.1) /CANNOTEMBEDFONTPOLICY /ERROR /COMPATIBILITYLEVEL 1.3 /COMPRESSOBJECTS /OFF /COMPRESSPAGES TRUE /CONVERTIMAGESTOINDEXED TRUE /PASSTHROUGHJPEGIMAGES TRUE /CREATEJDFFILE 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adam_txt	CONTENTS PARTI REDOXSYSTEMSVIAD, YY -CONJUGATION 1 CONJUGATEDCOMPLEXESWITHQUINONEDIIMINEDERIVATIVES TOSHIYUKIMORIUCHI,TOSHIKAZUHIRAO . 3 1.1 INTRODUCTION . 4 1.2 ARCHITECTURALLYCONTROLLED FORMATION OFCONJUGATEDCOMPLEXESWITH1,4-BENZOQUINONEDIIMINES. 5 1.3 REDOX-SWITCHING PROPERTIES OF CONJUGATED COMPLEXES WITH1,4-BENZOQUINONEDIIMINES. 17 1.4 CONCLUSION. 24 1.5 REFERENCES. 25 2 REALIZINGTHEULTIMATEAMPLIFICATION INCONDUCTINGPOLYMERSENSORS: ISOLATEDNANOSCOPICPATHWAYS TIMOTHY M. SWAGER . 29 2.1 DIMENSIONALITYINMOLECULAR-WIRESENSORS. 29 2.2 ANALYTE-TRIGGEREDBARRIERCREATIONINCONDUCTINGPOLYMERS . 32 2.3 ISOLATEDNANOSCOPICPATHWAYS. 34 2.4 LANGMUIR-BLODGETTAPPROACHESTONANOFIBRILS . 34 2.5 MOLECULARSCAFFOLDSFORTHEISOLATIONOFMOLECULARWIRES. 37 2.6 SUMMARYANDFUTUREPROSPECTS. 43 2.7 REFERENCES. 43 3 METAL-CONTAINING YY -CONJUGATEDMATERIALS MICHAEL O. WOLF . 45 3.1 INTRODUCTION . 46 3.1.1 YY -CONJUGATEDMATERIALS. 46 3.1.2 NANOMATERIALS. 46 3.2 METAL-COMPLEX-CONTAININGCONJUGATEDMATERIALS. 47 3.2.1 PREPARATION. 47 3.2.2 PROPERTIES . 49 3.3 METAL-NANOPARTICLE-CONTAININGCONJUGATEDMATERIALS. 51 3.3.1 PREPARATION. 51 VIII CONTENTS 3.3.2 PROPERTIES . 51 3.4 APPLICATIONS . 52 3.5 CONCLUSIONS. 53 3.6 REFERENCES. 53 4 REDOXACTIVEARCHITECTURESANDCARBON-RICHRUTHENIUMCOMPLEXES ASMODELSFORMOLECULARWIRES STEPHANERIGAUT,DANIELTOUCHARD,PIERREH.DIXNEUF . 55 4.1 INTRODUCTION . 56 4.2 RUTHENIUMALLENYLIDENEANDACETYLIDEBUILDINGBLOCKS: BASICPROPERTIES . 57 4.2.1 SYNTHETICROUTES. 57 4.2.2 REDOXPROPERTIES . 60 4.2.2.1 OXIDATIONOFRUTHENIUMMETALACETYLIDES: STABLERU II /RU III SYSTEMS AND A NEW ROUTE TOALLENYLIDENEMETALCOMPLEXES . 60 4.2.2.2 REDUCTIONOFMETALALLENYLIDENES: ACCESSTOSTABLE"ORGANIC"RADICALSANDAROUTETOACETYLIDES . 61 4.3 BIMETALLICCOMPLEXESFROMTHERU(DPPE) 2 SYSTEM. 63 4.3.1 ABINUCLEARBIS-ACETYLIDERUTHENIUMCOMPLEX. 63 4.3.2 BIS-ALLENYLIDENEBRIDGESLINKINGTWORUTHENIUMCOMPLEXES . 64 4.3.3 C 7 BRIDGEDBINUCLEARRUTHENIUMCOMPLEXES. 67 4.4 CONNECTIONOFTWOCARBON-RICHCHAINS WITHTHERUTHENIUMSYSTEM. 71 4.5 TRIMETALLICANDOLIGOMERICMETALCOMPLEXES WITHCARBON-RICHBRIDGES . 74 4.6 STARORGANOMETALLIC-CONTAININGMULTIPLEIDENTICALMETALSITES. 77 4.7 CONCLUSION. 79 4.8 REFERENCES. 79 5 MOLECULAR METAL WIRES BUILT FROM A LINEAR METAL ATOM CHAIN SUPPORTEDBYOLIGOPYRIDYLAMIDOLIGANDS CHEN-YUYEH,CHIH-CHIEHWANG,CHUN-HSIENCHEN, SHIE-MINGPENG . 85 5.1 INTRODUCTION . 86 5.2 SYNTHESISOFOLIGOPYRIDYLAMINELIGANDS . 87 5.3 DIMERIZATIONBYSELF-COMPLEMENTARYHYDROGENBONDING. 90 5.4 COMPLEXATIONOFOLIGOPYRIDYLAMINELIGANDS. 91 5.5 MONO-ANDDINUCULEARCOMPLEXES. 91 5.6 STRUCTURESOFLINEARMULTINUCLEARNICKELCOMPLEXES. 92 5.7 STRUCTURESOFLINEARMULTINUCLEARCOBALTCOMPLEXES . 98 5.8 STRUCTURESOFLINEARMULTINUCLEARCHROMIUMCOMPLEXES .100 5.9 STRUCTURESOFTRIRUTHENIUMANDTRIRHODIUMCOMPLEXES .103 5.10 COMPLEXESOFMODIFIEDLIGANDS.104 CONTENTS IX 5.11 ELECTROCHEMICALPROPERTIESOFTHECOMPLEXES.105 5.12 SCANNINGTUNNELINGMICROSCOPYSTUDIES.112 5.13 SUMMARY.114 5.14 REFERENCES.115 6 MULTIELECTRONREDOXCATALYSTS INMETAL-ASSEMBLEDMACROMOLECULARSYSTEMS TAKANEIMAOKA,KIMIHISAYAMAMOTO .119 6.1 INTRODUCTION .119 6.2 MULTIELECTRONREDOXSYSTEMS.120 6.3 MULTINUCLEARCOMPLEXESASREDOXCATALYSTS.122 6.4 MACROMOLECULE-METALCOMPLEXES.123 6.5 METALIONASSEMBLYONDENDRITICMACROMOLECULES.124 6.6 CONCLUSION.129 6.7 REFERENCES.129 PARTII REDOXSYSTEMSVIACOORDINATIONCONTROL 7 TRIRUTHENIUMCLUSTEROLIGOMERS THATSHOWMULTISTEP/MULTIELECTRONREDOXBEHAVIOR TOMOHIKOHAMAGUCHI,TADASHIYAMAGUCHI,TASUKUITO .133 7.1 INTRODUCTION .133 7.2 SYNTHESESOFOLIGOMERS1AND2.135 7.3 REDOXBEHAVIOROF1AND2 .136 7.4 CONCLUSION.139 7.5 REFERENCES.139 8 MOLECULARARCHITECTURE OFREDOX-ACTIVEMULTILAYEREDMETALCOMPLEXES BASEDONSURFACECOORDINATIONCHEMISTRY MASA-AKIHAGA .141 8.1 INTRODUCTION .141 8.2 FABRICATIONOFMULTILAYERNANOARCHITECTURES BYSURFACECOORDINATIONCHEMISTRY.142 8.2.1 LAYER-BY-LAYERASSEMBLYONSOLIDSURFACES .142 8.2.2 MOLECULARDESIGNOFANCHORINGGROUPS FORCONTROLOFMOLECULARORIENTATIONONSURFACES .143 8.2.3 MOLECULARDESIGNOFREDOX-ACTIVEMETALCOMPLEXUNITS FORTHECONTROLOFENERGYLEVELSONSURFACES.146 8.3 CHEMICALFUNCTIONS OFREDOX-ACTIVEMULTILAYEREDCOMPLEXESONSURFACE.148 8.3.1 ELECTRONTRANSFEREVENTSINMULTILAYERNANOSTRUCTURES.148 X CONTENTS 8.3.2 COMBINATORIALAPPROACH TOELECTROCHEMICALMOLECULARDEVICES INAMULTILAYERNANOSTRUCTUREONSURFACES.149 8.3.3 SURFACEDNATRAPPINGBYIMMOBILIZEDMETALCOMPLEXES WITHINTERCALATORMOIETYTOWARDNANOWIRING.151 8.4 CONCLUSION.153 8.5 REFERENCES.153 9 PROGRAMMEDMETALARRAYSBYMEANS OFDESIGNABLEBIOLOGICALMACROMOLECULES KENTAROTANAKA, TOMOKO OKADA, MITSUHIKO SHIONOYA .155 9.1 INTRODUCTION .155 9.2 DNA-DIRECTEDMETALARRAYS.156 9.2.1 METAL-MEDIATEDBASEPAIRINGINDNA.156 9.2.2 SINGLE-SITEINCORPORATION OFAMETAL-MEDIATEDBASEPAIRINTODNA .157 9.2.3 DISCRETESELF-ASSEMBLEDMETALARRAYSINDNA.159 9.3 PEPTIDE-DIRECTEDMETALARRAYS.161 9.3.1 DESIGNCONCEPT.161 9.3.2 HETEROGENEOUSMETALARRAYSUSINGCYCLICPEPTIDES.162 9.3.3 METALIONSELECTIVITYINSUPRAMOLECULARCOMPLEXATION .163 9.4 CONCLUSION.164 9.5 REFERENCES.164 10 METAL-INCORPORATEDHOSTSFORCOOPERATIVE ANDRESPONSIVERECOGNITIONTOEXTERNALSTIMULUS TATSUYANABESHIMA,SHIGEHISAAKINE .167 10.1 INTRODUCTION .167 10.2 PSEUDOMACROCYCLES FORCOOPERATIVEMOLECULARFUNCTIONALSYSTEMS.168 10.3 OLIGO(N 2 O 2 -CHELATE)MACROCYCLES.172 10.3.1 DESIGNOFMACROCYCLICOLIGO(N 2 O 2 -CHELATE)LIGANDS ANDMETALLOHOSTS .172 10.3.2 SYNTHESISANDSTRUCTUREOFTRIS(N 2 O 2 -CHELATE)MACROCYCLES . 173 10.4 ACYCLICOLIGO(N 2 O 2 -CHELATE)LIGANDS.174 10.4.1 DESIGNOFACYCLICOLIGO(N 2 O 2 -CHELATE)LIGANDS.174 10.4.2 COMPLEXESOFANEWN 2 O 2 -CHELATELIGAND,SALAMO.175 10.4.3 SYNTHESIS,STRUCTURE,ANDPROPERTIES OFACYCLICOLIGO(N 2 O 2 -CHELATE)LIGANDS .176 10.5 CONCLUSION.177 10.6 REFERENCES.177 CONTENTS XI 11 SYNTHESISOFPOLY(BINAPHTHOL)VIACONTROLLEDOXIDATIVECOUPLING SHIGEKIHABAUE,BUNPEIHATANO .179 11.1 INTRODUCTION .179 11.2 ASYMMETRICOXIDATIVECOUPLING WITHDINUCLEARMETALCOMPLEXES.181 11.3 OXIDATIVECOUPLINGPOLYMERIZATIONOFPHENOLS .183 11.4 OXIDATIVECOUPLINGPOLYMERIZATION OF2,3-DIHYDROXYNAPHTHALENE.184 11.5 CONCLUSION.188 11.6 REFERENCES.188 PARTIII REDOXSYSTEMSVIAMOLECULARCHAINCONTROL 12 NANOMECCANO YILIU,AMARH.FLOOD,J.FRASERSTODDART .193 12.1 INTRODUCTION .194 12.2 REDOX-CONTROLLABLEMOLECULARSWITCHESINSOLUTION .196 12.2.1 BISTABLE[2]CATENANES .196 12.2.2 BISTABLE[2]ROTAXANES .197 12.2.3 SELF-COMPLEXINGMOLECULARSWITCHES .198 12.3 APPLICATIONOFREDOX-CONTROLLABLEMOLECULARMACHINES INELECTRONICDEVICES.201 12.4 APPLICATIONOFREDOX-CONTROLLABLEMOLECULARMACHINES INMECHANICALDEVICES.204 12.4.1 SWITCHINGINLANGMUIR-BLODGETTFILM.205 12.4.2 MOLECULARMACHINESFUNCTIONINGASNANOVALVES .207 12.4.3 ARTIFICIALMOLECULARMUSCLES.208 12.5 CONCLUSIONS.211 12.6 REFERENCES.212 13 THROUGH-SPACECONTROLOFREDOXREACTIONS USINGINTERLOCKEDSTRUCTUREOFROTAXANES NOBUHIROKIHARA,TOSHIKAZUTAKATA .215 13.1 INTRODUCTION .215 13.2 REDOX BEHAVIOR AND CONFORMATION OFFERROCENE-END-CAPPEDROTAXANE.217 13.3 REDUCTIONOFKETONEBYROTAXANE BEARINGADIHYDRONICOTINAMIDEGROUP .225 13.4 CONCLUSION.230 13.5 REFERENCES.231 XII CONTENTS 14 METAL-CONTAININGSTARANDHYPERBRANCHEDPOLYMERS MASAMIKAMIGAITO .233 14.1 INTRODUCTION .233 14.2 METAL-CONTAININGSTARPOLYMERS.235 14.2.1 METAL-CONTAININGSTARPOLYMERSWITHASMALL ANDWELL-DEFINEDNUMBEROFARMS.236 14.2.2 METAL-CONTAININGSTARPOLYMERS WITHALARGEANDSTATISTICALLYDISTRIBUTEDNUMBEROFARMS. 240 14.3 METAL-CONTAININGHYPERBRANCHEDPOLYMERS.243 14.4 CONCLUDINGREMARKS.245 14.5 REFERENCES.246 15 ELECTRONICPROPERTIESOFHELICALPEPTIDEDERIVATIVES ATASINGLEMOLECULARLEVEL SHUNSAKU KIMURA, KAZUYA KITAGAWA, KAZUYUKI YANAGISAWA, TOMOYUKI MORITA . 249 15.1 MOLECULARELECTRONICS .249 15.2 ELECTRONTRANSFERTHROUGHMOLECULES .250 15.3 ELECTRONICPROPERTIESOFHELICALPEPTIDES.251 15.4 ELECTRONTRANSFERMECHANISMOVERALONGDISTANCE .254 15.5 EFFECTOFLINKERSONELECTRONTRANSFER .254 15.6 HELICAL-PEPTIDESCAFFOLDFORELECTRONHOPPING.256 15.7 PHOTOCURRENTGENERATIONWITHHELICALPEPTIDES CARRYINGNAPHTHYLGROUPS.259 15.8 CONCLUSION.261 15.9 REFERENCES.261 16 CONSTRUCTIONOFREDOX-INDUCEDSYSTEMS USINGANTIGEN-COMBININGSITESOFANTIBODIES ANDFUNCTIONALIZATIONOFANTIBODYSUPRAMOLECULES HIROYASUYAMAGUCHI,AKIRAHARADA .263 16.1 INTRODUCTION .264 16.2 PHOTOINDUCEDELECTRON TRANSFER FROM PORPHYRINS TOELECTRONACCEPTORMOLECULES.266 16.2.1 MONOCLONALANTIBODIES FOR MESO -TETRAKIS(4-CARBOXYPHENYL)PORPHYRIN(TCPP) .267 16.2.2 PHOTOINDUCEDELECTRONTRANSFERFROMAPORPHYRIN TOANELECTRONACCEPTORINANANTIBODY-COMBININGSITE .273 16.3 PEROXIDASEACTIVITYOFFE-PORPHYRIN-ANTIBODYCOMPLEXES . 275 16.3.1 PREPARATIONOFMONOCLONALANTIBODIES AGAINSTCATIONICPORPHYRINS .276 16.3.2 PEROXIDASEACTIVITYOFANTIBODY-FE-TMPYPCOMPLEX.280 16.4 DENDRITICANTIBODYSUPRAMOLECULES.282 CONTENTS XIII 16.5 LINEARANTIBODYSUPRAMOLECULES:APPLICATION FORNOVELBIOSENSINGMETHOD.285 16.5.1 ANTIVIOLOGENANTIBODIES.286 16.5.2 APPLICATIONSFORHIGHLYSENSITIVEDETECTIONMETHOD OFMETHYLVIOLOGENBYSUPRAMOLECULARCOMPLEXFORMATION BETWEENANTIBODIESANDDIVALENTANTIGENS.287 16.6 CONCLUSIONS.289 16.7 REFERENCES.290 SUBJECTINDEX .293 SPRINGERPRINT_0502_ACRO6.JOBOPTIONS /ASCII85ENCODEPAGES FALSE /ALLOWTRANSPARENCY FALSE /AUTOPOSITIONEPSFILES TRUE /AUTOROTATEPAGES /NONE /BINDING /LEFT /CALGRAYPROFILE (GRAY GAMMA 2.2) /CALRGBPROFILE (ADOBE RGB \0501998\051) /CALCMYKPROFILE (U.S. WEB COATED \050SWOP\051 V2) /SRGBPROFILE (SRGB IEC61966-2.1) /CANNOTEMBEDFONTPOLICY /ERROR /COMPATIBILITYLEVEL 1.3 /COMPRESSOBJECTS /OFF /COMPRESSPAGES TRUE /CONVERTIMAGESTOINDEXED TRUE /PASSTHROUGHJPEGIMAGES TRUE /CREATEJDFFILE FALSE /CREATEJOBTICKET FALSE /DEFAULTRENDERINGINTENT /PERCEPTUAL /DETECTBLENDS TRUE /COLORCONVERSIONSTRATEGY /LEAVECOLORUNCHANGED /DOTHUMBNAILS FALSE /EMBEDALLFONTS TRUE /EMBEDJOBOPTIONS TRUE /DSCREPORTINGLEVEL 0 /EMITDSCWARNINGS FALSE /ENDPAGE -1 /IMAGEMEMORY 524288 /LOCKDISTILLERPARAMS TRUE /MAXSUBSETPCT 100 /OPTIMIZE TRUE /OPM 1 /PARSEDSCCOMMENTS TRUE 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any_adam_object	1
any_adam_object_boolean	1
author2	Hirao, Toshikazu
author2_role	edt
author2_variant	t h th
author_GND	(DE-588)13178661X
author_facet	Hirao, Toshikazu
building	Verbundindex
bvnumber	BV022469801
classification_rvk	VE 5800 VE 7800 VE 9850 VK 7150
ctrlnum	(OCoLC)181481281 (DE-599)BVBBV022469793
dewey-full	520
dewey-hundreds	500 - Natural sciences and mathematics
dewey-ones	520 - Astronomy and allied sciences
dewey-raw	520
dewey-search	520
dewey-sort	3520
dewey-tens	520 - Astronomy and allied sciences
discipline	Chemie / Pharmazie Physik
discipline_str_mv	Chemie / Pharmazie Physik
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spelling	Redox systems under nano-space control with 19 tables Toshikazu Hirao (ed.) Berlin ; Heidelberg Springer 2006 XVIII, 295 S. Ill., graph. Darst. 24 cm txt rdacontent n rdamedia nc rdacarrier Literaturangaben Redoxsystem (DE-588)4177304-4 gnd rswk-swf Nanostruktur (DE-588)4204530-7 gnd rswk-swf (DE-588)4143413-4 Aufsatzsammlung gnd-content Redoxsystem (DE-588)4177304-4 s Nanostruktur (DE-588)4204530-7 s DE-604 Hirao, Toshikazu (DE-588)13178661X edt text/html http://deposit.dnb.de/cgi-bin/dokserv?id=2682856&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=015677309&sequence=000001&line_number=0001&func_code=DB_RECORDS&service_type=MEDIA Inhaltsverzeichnis
spellingShingle	Redox systems under nano-space control with 19 tables Redoxsystem (DE-588)4177304-4 gnd Nanostruktur (DE-588)4204530-7 gnd
subject_GND	(DE-588)4177304-4 (DE-588)4204530-7 (DE-588)4143413-4
title	Redox systems under nano-space control with 19 tables
title_auth	Redox systems under nano-space control with 19 tables
title_exact_search	Redox systems under nano-space control with 19 tables
title_exact_search_txtP	Redox systems under nano-space control with 19 tables
title_full	Redox systems under nano-space control with 19 tables Toshikazu Hirao (ed.)
title_fullStr	Redox systems under nano-space control with 19 tables Toshikazu Hirao (ed.)
title_full_unstemmed	Redox systems under nano-space control with 19 tables Toshikazu Hirao (ed.)
title_short	Redox systems under nano-space control
title_sort	redox systems under nano space control with 19 tables
title_sub	with 19 tables
topic	Redoxsystem (DE-588)4177304-4 gnd Nanostruktur (DE-588)4204530-7 gnd
topic_facet	Redoxsystem Nanostruktur Aufsatzsammlung
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