Electron transfer in chemistry: 3 Biological systems, artificial supramolecular systems
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| Format: | Buch |
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| Sprache: | English |
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Wiley-VCH
2001
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| Online-Zugang: | Inhaltsverzeichnis |
| Beschreibung: | XLVII, 714 S. Ill., graph. Darst. |
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| 245 | 1 | 0 | |a Electron transfer in chemistry |n 3 |p Biological systems, artificial supramolecular systems |c Vincenzo Balzani (ed.) |
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Datensatz im Suchindex
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| adam_text | VINCENZO BALZANI (ED.) ELECTRON TRANSFER IN CHEMISTRY Q BIOLOGICAL
SYSTEMS ARTIFICIAL SUPRAMOLECULAR SYSTEMS WILEY-VCH WEINHEIM * NEW YORK
* CHICHESTER BRISBANE * SINGAPORE * TORONTO CONTENTS XXV VOLUME III PART
1 BIOLOGICAL SYSTEMS 1 HARRY B. GRAY AND JAY R. WINKLER (EDS.) 1
ELECTRON TRANSFER IN METALLOPROTEINS 3 HARRY B. GRAY AND JAY R. WINKLER
1. 1 INTRODUCTION 3 1.2 THE SEMICLASSICAL MODEL OF ELECTRON TRANSFER 3
1.3 RU-MODIFIED PROTEINS 5 1.4 REORGANIZATION ENERGY 6 1.4.1 CYTOCHROME
C 6 1.4.2 AZURIN 9 1.5 ELECTRONIC COUPLING 10 1.5.1 THEORETICAL MODELS
10 1.5.2 BLUE COPPER PROTEINS 13 1.5.3 HERNE PROTEINS 15 1.5.4
HIGH-POTENTIAL IRON-SULFUR PROTEIN (HIPIP) 17 1.6 ELECTRON TUNNELING
THROUGH WATER 17 1.7 TUNNELING TIMETABLES 19 ACKNOWLEDGMENT 20
REFERENCES 20 2 PHOTOSYNTHESIS: BACTERIAL REACTION CENTER 24 CHRISTOPHER
C. MOSER, CHRISTOPHER C. PAGE, AND P. LESLIE DUTTON 2.1 THE BIOENERGETIC
CONTEXT OF BACTERIAL REACTION CENTERS 24 2.2 TUNNELING REVEALED IN
PHOTOSYNTHESIS 26 2.3 BASIC ELECTRON TUNNELING THEORY 27 2.3.1 THE V R2
TERM 28 2.3.2 THE FC TERM 28 2.3.3 AN EMPIRICAL TUNNELING EXPRESSION
WITH QUANTIZED FC 30 2.4 DEVAULT AND CHANCE S PREDICTION 31 2.5 THE
DESIGN OF NATURAL ELECTRON TRANSFER CHAINS 33 2.5.1 THE HIGH POTENTIAL
REDOX COFACTOR CHAIN IN RP. VIRIDIS 33 2.5.2 THE LOW-POTENTIAL CHAIN IN
RP. VIRIDIS AND RB. SPHAEROIDES 36 REFERENCES 38 3 RESPIRATION:
CYTOCHROME OXIDASE 39 BO G. MALMSTROEM 3.1 INTRODUCTION 39 3.2 STRUCTURE
OF CYTOCHROME OXIDASE 40 3.3 METHODS FOR STUDYING ELECTRON TRANSFER IN
CYTOCHROME OXIDASE 41 3.3.1 ELECTRON INJECTION INTO CYTOCHROME OXIDASE
42 3.3.2 FLASH PHOTOLYSIS OF MIXED-VALENCE CARBOXYCYTOCHROME OXIDASE 42
3.3.3 THE FLOW-FLASH TECHNIQUE: THE REDUCED CYTOCHROME OXIDASE- DIOXYGEN
REACTION 43 XXVI CONTENTS 3.4 ELECTRON TRANSFER REACTIONS IN CYTOCHROME
OXIDASE 44 3.4.1 REDUCTION OF THE INITIAL ELECTRON ACCEPTOR 44 3.4.2
INTERNAL ELECTRON TRANSFER REACTIONS 48 3.4.3 THE REDUCTION OF DIOXYGEN
48 3.4.4 COUPLING BETWEEN ELECTRON AND PROTON TRANSFER 50 3.5 CONCLUDING
REMARKS 51 ACKNOWLEDGMENTS 52 REFERENCES 52 4 REDOX ENZYMES: CORRELATION
OF THREE-DIMENSIONAL STRUCTURE AND MECHANISM FOR HEME-CONTAINING
OXYGENASES AND PEROXIDASES 56 ALYCEN E. POND, AMY P. LEDBETTER, MASANORI
SONO, DAVID B. GOODIN, AND JOHN H. DAWSON 4.1 INTRODUCTION 56 4.2
CYTOCHROME P450 58 4.2.1 INTRODUCTION 58 4.2.2 REACTION CYCLE OF P450 60
4.2.3 MOLECULAR STRUCTURE OF P450 64 4.2.4 MECHANISM OF OXYGEN
ACTIVATION 66 4.3 NITRIC OXIDE SYNTHASE 71 4.3.1 INTRODUCTION 71 4.3.2
THE ISOFORMS 72 4.3.3 THE MOLECULAR STRUCTURE OF NOS 75 4.3.4 THE
MECHANISM OF NOS 78 4.4 HEME-CONTAINING PLANT PEROXIDASES 83 4.4.1
INTRODUCTION 83 4.4.2 THE MOLECULAR STRUCTURE OF HEME PEROXIDASES 84
4.4.3 THE CATALYTIC MECHANISM OF HEME PEROXIDASES 88 4.4.4 CAN
PEROXIDASES CATALYZE PEROXYGENASE CHEMISTRY? 93 4.4.5 DEVELOPMENT OF CCP
AS A PROTEIN MODEL SYSTEM FOR HEME- CONTAINING ENZYMES 94 4.5
CONCLUSIONS 97 ACKNOWLEDGMENTS 97 ABBREVIATIONS 98 REFERENCES 99 5
ELECTRON TRANSFER AND CHARGE TRANSPORT PROCESS IN DNA 105 FREDERICK D.
LEWIS 5.1 INTRODUCTION 105 5.1.1 BACKGROUND 105 5.1.2 STRUCTURE AND
PROPERTIES OF DNA 106 5.1.3 DIRECT IONIZATION OF DNA 116 5.2 COLLISIONAL
AND STATIC CONTACT ELECTRON TRANSFER IN DNA 120 5.2.1 ENERGETICS AND
DYNAMICS OF DIRECT ELECTRON TRANSFER PROCESSES 120 5.2.2 BIMOLECULAR
ELECTRON TRANSFER PROCESSES OF NUCLEOSIDES, NUCLEOTIDES, AND
OLIGONUCLEOTIDES 123 CONTENTS XXVII 5.2.3 ELECTRON TRANSFER PROCESS
INVOLVING COVALENTLY ATTACHED NEAREST-NEIGHBOR NUCLEOBASES 130 5.2.4
ELECTRON TRANSFER QUENCHING OF INTERCALATED ACCEPTORS BY
NEAREST-NEIGHBOR NUCLEOBASES 138 5.3 SINGLE-STEP ELECTRON TRANSFER
PROCESS IN ACCEPTOR-DNA-DONOR SYSTEMS 139 5.3.1 BACKGROUND 139 5.3.2
ELECTRON TRANSFER IN DONOR-DNA-ACCEPTOR SYSTEMS 141 5.3.3 DNA-MEDIATED
OXIDATION OF NUCLEOBASES 147 5.3.4 SUMMARY OF RESULTS FOR SINGLE-STEP
ELECTRON TRANSFER 153 5.4 PHOTOINITIATED CHARGE TRANSPORT IN DNA 154
5.4.1 BACKGROUND 154 5.4.2 DNA CLEAVAGE AND THYMINE DIMER REPAIR OVER
LONG DISTANCES... 156 5.4.3 DISTANCE-DEPENDENT HOLE MIGRATION IN DNA 160
5.5 CONDUCTIVITY OF LONIZED DNA ASSEMBLIES 164 5.5.1 BACKGROUND 164
5.5.2 DNA FIBERS AND SINGLE MOLECULES 165 5.5.3 THIN FILMS AND MONOLAYER
ASSEMBLIES 166 5.6 CONCLUSIONS AND PROSPECTS 167 ACKNOWLEDGMENTS 169
REFERENCES 169 PART 2 ARTIFICIAL SUPRAMOLECULAR SYSTEMS 177 VINCENZO
BALZANI (ED.) 1 COVALENTLY LINKED SYSTEMS BASED ON ORGANIC COMPONENTS 1
79 MICHAEL N. PADDON-ROW 1 .1 INTRODUCTION 179 1.2 THE SUPEREXCHANGE
MECHANISM 183 1.3 EXPERIMENTAL INVESTIGATIONS OF THE SUPEREXCHANGE
MECHANISM FOR ET PROCESSES 188 1.4 EXAMPLES OF TS- AND TB-MEDIATED
PHOTOINDUCED ET REACTIONS 197 1.5 DISTANCE DEPENDENCE OF TB-MEDIATED ET
IN SATURATED HYDROCARBON BRIDGES 201 1.6 A SIMPLE MODEL FOR DISSECTING
TB COUPLING IN BRIDGES 216 1.7 INTERFERENCE EFFECTS IN TB COUPLING 217
1.8 PORPHYRIN AND C6O CHROMOPHORES 225 1.9 SUPEREXCHANGE VERSUS
MOLECULAR WIRE BEHAVIOR 230 1.10 SUPEREXCHANGE THROUGH AROMATIC BRIDGES
235 1.11 ELECTRON TRANSFER MEDIATED BY 7I-STACKS IN DNA 238 1.12
ELECTRON TRANSFER MEDIATED THROUGH HYDROGEN BONDS 243 1.13 THE EFFECT OF
ORBITAL SYMMETRY ON ET DYNAMICS 243 1.14 EFFECT OF DONOR-ACCEPTOR
ORIENTATION ON ET RATES 246 1.15 MODULATION OF ELECTRON TRANSFER
DYNAMICS BY ELECTRIC FIELDS 249 1.16 DESIGN OF DYADS WITH RAPID
SOLVENT-INDEPENDENT CHARGE SEPARATION 252 XXVM CONTENTS 1.17
VERIFICATION OF THE MARCUS INVERTED REGION 253 1.17.1
THROUGH-BOND-MEDIATED ELECTRONIC ENERGY TRANSFER 254 1.18 ELECTRON
TRANSFER MEDIATED BY SOLVENT MOLECULES 258 1.19 EPILOGUE 265
ACKNOWLEDGMENTS 266 REFERENCES 266 2 COVALENTLY LINKED SYSTEMS
CONTAINING PORPHYRIN UNITS 272 DEVENS GUST, THOMAS A. MOORE AND ANA L.
MOORE 2. 1 INTRODUCTION 272 2.2 BASIC PRINCIPLES UNDERLYING PHOTOINDUCED
ELECTRON TRANSFER 273 2.2.1 ELECTRONIC COUPLING 275 2.2.2 SOLVENT
EFFECTS 275 2.3 INTRAMOLECULAR PHOTOINDUCED ELECTRON TRANSFER IN
PORPHYRIN-BASED SYSTEMS: DYADS 276 2.3.1 PORPHYRINS COVALENTLY LINKED TO
OTHER PORPHYRINS 278 2.3.2 PORPHYRINS COVALENTLY LINKED TO QUINONES 284
2.3.3 PORPHYRINS COVALENTLY LINKED TO FULLERENES 295 2.3.4 PORPHYRINS
COVALENTLY LINKED TO CAROTENOID POLYENES 300 2.3.5 PORPHYRINS COVALENTLY
LINKED TO AROMATIC IMIDES 301 2.3.6 PORPHYRINS COVALENTLY LINKED TO
VIOLOGENS 303 2.4 INTRAMOLECULAR PHOTOINDUCED ELECTRON TRANSFER IN
PORPHYRIN-BASED SYSTEMS: TRIADS 304 2.4.1 TRIADS WITH PORPHYRIN-QUINONE
COMPONENTS 305 2.4.2 TRIADS WITH DIPORPHYRIN COMPONENTS 311 2.4.3 TRIADS
WITH FULLERENE COMPONENTS 312 2.4.4 TRIADS WITH AROMATIC IMIDE
COMPONENTS 314 2.4.5 TRIAD WITH A VIOLOGEN COMPONENT 317 2.5
INTRAMOLECULAR PHOTOINDUCED ELECTRON TRANSFER IN COMPLEX PORPHYRIN-BASED
SYSTEMS: TETRADS, PENTADS, AND HEXADS 318 2.5.1 SEQUENTIAL MULTISTEP
ELECTRON TRANSFER PROCESS: TETRADS 318 2.5.2 SEQUENTIAL AND PARALLEL
MULTISTEP ELECTRON TRANSFER PROCESS: PENTADS 322 2.5.3 AN ARTIFICIAL
PHOTOSYNTHETIC ANTENNA-REACTION CENTER SYSTEM 324 2.6 CONCLUSIONS 328
REFERENCES 329 3 COVALENTLY LINKED SYSTEMS CONTAINING METAL COMPLEXES
337 FRANCO SCANDOLA, CLAUDIO CHIORBOLI, MARIA TERESA INDELLI, AND MARIA
ANITA RAMPI 3.1 INTRODUCTION 337 3.1.1 SCOPE AND LIMITATIONS 337 3.1.2
COVALENTLY LINKED SYSTEMS AS SUPRAMOLECULAR SPECIES 340 3.1.3
INTERCOMPONENT PROCESSES: A SHORT SUMMARY 341 3.1.4 COORDINATION
COMPOUNDS AS MOLECULAR COMPONENTS 350 3.2 BIMETALLIC AND POLYMETALLIC
SYSTEMS 351 CONTENTS XXIX 3.3 CHROMOPHORE-QUENCHER SYSTEMS 372 3.3.1
FERROCENES 372 3.3.2 FULLERENES 373 3.3.3 AMINES 374 3.3.4 PYRIDINIUM
IONS 375 3.3.5 OTHER SYSTEMS 376 3.4 SELECTED TOPICS 377 3.4.1
ELECTRONIC ENERGY TRANSFER IN BIMETALLIC SYSTEMS: RU(II)-OS(II) DYADS
377 3.4.2 PHOTOINDUCED ELECTRON TRANSFER IN BIMETALLIC SYSTEMS: RU(II)-
RH(III) DYADS 383 3.4.3 REVERSIBLE ENERGY TRANSFER IN SYSTEMS WITH
AROMATIC HYDROCARBON UNITS 390 3.4.4 PHOTOINDUCED CHARGE SHIFT IN
CHROMOPHORE-QUENCHER SYSTEMS 393 3.4.5 MULTI-STEP CHARGE SEPARATION IN
TRIADS 395 3.5 CONCLUDING REMARKS 396 APPENDIX 401 REFERENCES 403 4
ELECTRON TRANSFER IN HYDROGEN-BONDED DONOR-ACCEPTOR SUPRAMOLECULES 409
CHRISTOPHER J. CHANG, JOSHUA D. K. BROWN, MICHELLE C. Y. CHANG, ERIN A.
BAKER AND DANIEL G. NOCERA 4.1 INTRODUCTION 409 4.2 BACKGROUND 410 4.3
SCOPE OF THE CHAPTER 412 4.4 ELECTRON TRANSFER REACTIVITY OF D*[H]*A
SUPRAMOLECULE SYSTEMS 413 4.4.1 CARBOXYLIC ACID DIMERS 414 4.4.2
COFACIAL PORPHYRIN-QUINONE SYSTEMS 417 4.4.3 QUINONE RECOGNITION BY
CYCLOPHANES 421 4.4.4 PEPTIDE-BASED MOTIFS 424 4.4.5 WATSON-CRICK
BASE-PAIRING 427 4.4.6 DIIMIDE-BASED ASSEMBLIES 433 4.4.7 MIXED-VALENCE
METAL COMPLEXES 438 4.4.8 BARBITURIC ACID-CONTAINING COMPLEMENTARY PAIRS
440 4.4.9 MISCELLANEOUS HYDROGEN-BONDED ENSEMBLES 440 4.4.10 SALT BRIDGE
SYSTEMS 443 4.5 CONCLUDING REMARKS 452 ACKNOWLEDGMENTS 457 REFERENCES
457 5 HOST-GUEST AND CAGE-TYPE SYSTEMS 462 LUIGI FABBRIZZI, MAURIZIO
LICCHELLI AND ANGELO TAGLIETTI 5.1 METAL IONS INSIDE AZA-CROWNS 462 5.2
ANIONS INSIDE AZA-CROWNS 469 XXX CONTENTS 5.3 METALS INSIDE AZA-CAGES
471 5.4 METALS INSIDE THIA-CROWNS 477 5.5 ANIONS INSIDE ZN N
-POLYAMINE-BASED SYSTEMS 482 5.6 CYCLODEXTRINS 487 5.7 CALIXARENES AND
RELATED COMPOUNDS 490 5.8 CARCERANDS AND HEMICARCERANDS 495 REFERENCES
498 6 ELECTRON TRANSFER PROCESSES IN PSEUDOROTAXANES 501 MARGHERITA
VENTURI, ALBERTO CREDI, AND VINCENZO BALZANI 6.1 INTRODUCTION 501 6.2
MAIN TYPES OF PSEUDOROTAXANES 501 6.3 SOME GENERAL AND PARTICULAR
ASPECTS OF PSEUDOROTAXANE CHEMISTRY 504 6.4 SPECTROSCOPIC AND
ELECTROCHEMICAL CONSEQUENCES OF CHARGE- TRANSFER INTERACTIONS 508 6.4.1
ABSORPTION AND EMISSION SPECTRA 508 6.4.2 ELECTROCHEMICAL PROPERTIES 510
6.5 ELECTRON TRANSFER CONTROLLING DETHREADING/RETHREADING PROCESSES...
511 6.5.1 PSEUDOROTAXANES AS SIMPLE MOLECULAR MACHINES 511 6.5.2
PHOTOCHEMICALLY INDUCED PROCESSES 512 6.5.3 ELECTROCHEMICALLY INDUCED
PROCESSES 516 6.5.4 CHEMICALLY INDUCED PROCESSES 521 6.6 ELECTRON
TRANSFER CONTROLLED BY DETHREADING/RETHREADING PROCESSES 525 6.6.1
PSEUDOROTAXANES AND INFORMATION PROCESSING 525 6.6.2 PLUG-SOCKET SYSTEMS
525 6.6.3 EXTENSIONS 526 6.6.4 LOGIC GATES AND SWITCHES 527 6.6.5
SENSORS 529 6.6.6 OTHER SYSTEMS 530 6.7 HETEROGENEOUS SYSTEMS 531 6.8
CONCLUSIONS 531 ACKNOWLEDGMENTS 534 REFERENCES 534 7 ELECTRON TRANSFER
PROCESSES IN ROTAXANES AND CATENANES 539 ROBERTO BALLARDINI, MARIA
TERESA GANDOLFI, AND VINCENZO BALZANI 1. 1 INTRODUCTION 539 7.2
SYNTHESIS 539 7.3 SPECTROSCOPIC AND ELECTROCHEMICAL CONSEQUENCES OF
CHARGE- TRANSFER INTERACTIONS 546 7.3.1 ABSORPTION AND EMISSION SPECTRA
547 7.3.2 ELECTROCHEMICAL BEHAVIOR 548 7.4 ROTAXANES 550 CONTENTS XXXI
7.4.1 ROTAXANE CHEMISTRY 550 7.4.2 SHUTTLING PROCESSES 552 7.4.3
ELECTROCHEMICALLY CONTROLLED SHUTTLING PROCESSES 553 7.4.4
PHOTOCHEMICALLY CONTROLLED SHUTTLING PROCESSES 556 7.4.5 CHEMICALLY
CONTROLLED SHUTTLING PROCESSES 561 7.5 CATENANES 561 7.5.1 FUNCTIONAL
CATENANES 561 7.5.2 RING MOTIONS 566 7.5.3 ELECTROCHEMICALLY CONTROLLED
RING MOTIONS 570 7.5.4 PHOTOCHEMICALLY CONTROLLED RING MOTIONS 573 7.5.5
CHEMICALLY CONTROLLED RING MOTIONS 573 7.6 MOLECULAR-LEVEL MACHINES 574
7.7 MODIFIED ELECTRODES AND HETEROSUPRAMOLECULAR SYSTEMS 575 7.8
CONCLUSIONS 577 ACKNOWLEDGMENTS 577 REFERENCES 577 8 METAL-ASSEMBLED
CATENANES, ROTAXANES, AND KNOTS 582 NICOLA ARMAROLI, JEAN-CLAUDE
CHAMBRON, JEAN-PAUL COLLIN, CHRISTIANE DIETRICH-BUCHECKER, LUCIA
FLAMIGNI, JEAN-MARC KERN, AND JEAN-PIERRE SAUVAGE 8.1 INTRODUCTION 582
8.2 ELECTROCHEMICAL PROPERTIES OF METALLOCATENATES AND KNOTS 583 8.2.1
INTRODUCTION 583 8.2.2 METALLO[2]CATENATES IN WHICH THE METAL IS IN A
TETRAHEDRAL ENVIRONMENT: STABILIZATION OF LOW OXIDATION STATES 584 8.2.3
COPPER [2]CATENATES 587 8.2.4 ELECTROCHEMICAL STUDY OF VARIOUS
MONOMETALLATED CATENANES IN WHICH THE METAL IS TETRACOORDINATED 591
8.2.5 DIMETALLIC [3]CATENATES 596 8.2.6 DIMETALLIC MOLECULAR TREFOIL
KNOTS 601 8.2.7 A MONONUCLEAR HEXACOORDINATED RUTHENIUM BIS-TERPYRIDINE
[2]CATENATE 603 8.3 PHOTOPHYSICAL PROPERTIES OF CATENATES AND KNOTS 605
8.3.1 INTRODUCTION 605 8.3.2 METALLO-[2]CATENATES 605 8.3.3
MULTICOMPONENT METALLO-[3]CATENATES 608 8.3.4 PROTON [2]- AND
[3]CATENATES 610 8.3.5 MULTICOMPONENT METALLO-[2]CATENATES 612 8.3.6
HOMO- AND HETERODINUCLEAR KNOTS 614 8.3.7 QUENCHING BY DIOXYGEN 617 8.4
PORPHYRINIC ROTAXANES: CONTROL OF THE PHOTOINDUCED ELECTRON TRANSFER
RATE BETWEEN PZN AND PAU + BY THE ASSEMBLER METAL 618 8.4.1 INTRODUCTION
618 8.4.2 PROPERTIES OF THE REFERENCE COMPOUNDS 620 XXXII CONTENTS 8.4.3
PHOTOCHEMISTRY OF THE ZINC/GOLD BISPORPHYRIN 621 8.4.4 PHOTOCHEMISTRY OF
THE COPPER(I)-COMPLEXED ZINC/GOLD BISPORPHYRIN-STOPPERED [2]ROTAXANE 622
8.4.5 COMPARISON OF THE ELECTRON TRANSFER RATES FOR BOTH SYSTEMS 627
8.4.6 CONCLUSION 629 8.5 CATENANES IN MOTION: ELECTROCHEMICALLY AND
PHOTOCHEMICALLY DRIVEN MACHINE-LIKE MOLECULES 629 8.5.1 INTRODUCTION 629
8.5.2 A NONSYMMETRICAL COPPER [2]CATENATE 632 8.5.3 A SYMMETRICAL COPPER
[2]CATENATE 636 8.6 ROTAXANES: GLIDING OF THE RING ON ITS AXLE UNDER THE
ACTION OF AN ELECTROCHEMICAL OR PHOTOCHEMICAL SIGNAL 640 8.6.1
INTRODUCTION 640 8.6.2 ELECTROCHEMICALLY DRIVEN MOTION 641 8.6.3
PHOTOCHEMICALLY DRIVEN MOTION [99] 644 8.7 CONCLUSIONS 649
ACKNOWLEDGMENTS 650 REFERENCES 650 9 DENDRIMERS 655 ALBERTO JURIS 9.1
INTRODUCTION 655 9.2 ELECTROACTIVE UNITS 656 9.3 TYPES OF ELECTRON
TRANSFER REACTIONS 658 9.3.1 ELECTROCHEMICAL REACTIONS 658 9.3.2
PHOTOINDUCED ELECTRON TRANSFER REACTIONS 658 9.4 DENDRIMERS CONTAINING
ELECTROACTIVE UNITS 659 9.4.1 FERROCENE AND OTHER SANDWICH COMPOUNDS 659
9.4.2 METAL-POLYPYRIDINE COMPLEXES 668 9.4.3 PORPHYRINS AND
PHTHALOCYANINS 679 9.4.4 TETRATHIAFULVALENE 686 9.4.5 FULLERENE 688
9.4.6 NAPHTHALENE DIIMIDE 692 9.4.7 TRIARYL AMINES 695 9.4.8 OTHER
ELECTROACTIVE UNITS 697 9.5 ELECTROINACTIVE DENDRIMERS 706 9.6
CONCLUDING REMARKS 709 REFERENCES 710
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| language | English |
| oai_aleph_id | oai:aleph.bib-bvb.de:BVB01-009188973 |
| oclc_num | 48487243 |
| open_access_boolean | |
| owner | DE-29T DE-703 DE-384 DE-20 DE-19 DE-BY-UBM DE-355 DE-BY-UBR DE-11 |
| owner_facet | DE-29T DE-703 DE-384 DE-20 DE-19 DE-BY-UBM DE-355 DE-BY-UBR DE-11 |
| physical | XLVII, 714 S. Ill., graph. Darst. |
| publishDate | 2001 |
| publishDateSearch | 2001 |
| publishDateSort | 2001 |
| publisher | Wiley-VCH |
| record_format | marc |
| spelling | Electron transfer in chemistry 3 Biological systems, artificial supramolecular systems Vincenzo Balzani (ed.) Weinheim [u.a.] Wiley-VCH 2001 XLVII, 714 S. Ill., graph. Darst. txt rdacontent n rdamedia nc rdacarrier Oxidation-reduction reaction Balzani, Vincenzo 1936- Sonstige (DE-588)10907811X oth (DE-604)BV013463647 3 GBV Datenaustausch application/pdf http://bvbr.bib-bvb.de:8991/F?func=service&doc_library=BVB01&local_base=BVB01&doc_number=009188973&sequence=000001&line_number=0001&func_code=DB_RECORDS&service_type=MEDIA Inhaltsverzeichnis |
| spellingShingle | Electron transfer in chemistry Oxidation-reduction reaction |
| title | Electron transfer in chemistry |
| title_auth | Electron transfer in chemistry |
| title_exact_search | Electron transfer in chemistry |
| title_full | Electron transfer in chemistry 3 Biological systems, artificial supramolecular systems Vincenzo Balzani (ed.) |
| title_fullStr | Electron transfer in chemistry 3 Biological systems, artificial supramolecular systems Vincenzo Balzani (ed.) |
| title_full_unstemmed | Electron transfer in chemistry 3 Biological systems, artificial supramolecular systems Vincenzo Balzani (ed.) |
| title_short | Electron transfer in chemistry |
| title_sort | electron transfer in chemistry biological systems artificial supramolecular systems |
| topic | Oxidation-reduction reaction |
| topic_facet | Oxidation-reduction reaction |
| url | http://bvbr.bib-bvb.de:8991/F?func=service&doc_library=BVB01&local_base=BVB01&doc_number=009188973&sequence=000001&line_number=0001&func_code=DB_RECORDS&service_type=MEDIA |
| volume_link | (DE-604)BV013463647 |
| work_keys_str_mv | AT balzanivincenzo electrontransferinchemistry3 |