Produktbild: Functional Supramolecular Architectures
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Functional Supramolecular Architectures for Organic Electronics and Nanotechnology

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Beschreibung

Produktdetails

Einband

Set mit diversen Artikeln

Erscheinungsdatum

15.12.2010

Abbildungen

schwarz-weiss Illustrationen, Tabellen, schwarz-weiss, farbige Illustrationen

Herausgeber

Paolo Samori + weitere

Verlag

Wiley-VCH

Seitenzahl

1030

Maße (L/B/H)

24,7/18/6,3 cm

Gewicht

2286 g

Auflage

1. Auflage

Sprache

Englisch

ISBN

978-3-527-32611-2

Beschreibung

Rezension

"The book will be of value to graduate students and researchers from several disciplines who wish to orient themselves in the exciting new area of organic electronics and nanotechnology. It succeeds very well and is and outstanding and useful reference." ( Materials World , 1 March 2013)
"Overall, I have thoroughly enjoyed reading these two volumes and believe that they will provide both an introduction to the field for the novel adepts who are starting to develop an interest in supramolecular chemistry and materials, as well as a useful guidance and a reference text, from fundamental to applications, for experts who would like to keep abreast of the field with the latest and most significant achievements for several years to come." (Materials Views, 13 September 2011)
"All in all, Functional Supramolecular Architectures is an excellent interdisciplinary resource for chemists, material scientists, and chemical engineers practicing in both academic and industrial R&D settings. In addition, it may be an intriguing choice as a primary text for a graduate-level special topics course dealing with functional supramolecular materials and applications thereof." (Journal of the American Chemical Society, 16 May 2011)

Portrait

Paolo Samorì is full professor of Physical Chemistry and senior member as well as deputy director of the Institut de Science et d'Ingénierie Supramoléculaires (ISIS) of the Université de Strasbourg (UdS) & CNRS where he is also Director of the Nanochemistry Laboratory. He is also a junior member of the Institut Universitaire de France (IUF). After his PhD in Chemistry from the Humboldt University Berlin, Germany, he was permanent research scientist at the National Research Council in Bologna, Italy. His research interests span applications of scanning probe microscopies, supramolecular electronics and the fabrication of molecular-scale nanodevices. Paolo Samorì has received numerous awards, including the IUPAC Prize for Young Chemists 2001, the Vincenzo Caglioti award 2006 granted by the Accademia Nazionale dei Lincei ,the "Nicolò Copernico" award 2009 (Italy), the prix "Guy Ourisson" 2010 du Cercle Gutenberg, and the ERC starting grant 2010.

Franco Cacialli is Professor of Physics at the Department of Physics and Astronomy, and the London Centre for Nanotechnology, University College London, UK. After his PhD in Electronics at the University of Pisa, Italy, he moved to Cambridge, UK, where he held a Royal Society University Research Fellowship to work on the electrical and optical properties of organic semiconductors (1996-2000). In 2001 he joined UCL, and set up a research group focusing on the exploitation of supramolecular architectures for plastic electronics, as well as fabrication and characterization of organic semiconductor nanostructures. Franco Cacialli was elected a Fellow of the American Physical Society in 2009.

Produktdetails

Einband

Set mit diversen Artikeln

Erscheinungsdatum

15.12.2010

Abbildungen

schwarz-weiss Illustrationen, Tabellen, schwarz-weiss, farbige Illustrationen

Herausgeber

Verlag

Wiley-VCH

Seitenzahl

1030

Maße (L/B/H)

24,7/18/6,3 cm

Gewicht

2286 g

Auflage

1. Auflage

Sprache

Englisch

ISBN

978-3-527-32611-2

Herstelleradresse

Wiley-VCH GmbH
Boschstr. 12
69469 Weinheim
Deutschland
Email: trade@wiley.com
Url: www.wiley-vch.de
Fax: +49 6201 606328

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  • Produktbild: Functional Supramolecular Architectures
  • VOLUME 1

    PART I: Modeling and Theory

    CHARGE TRANSPORT IN ORGANIC SEMICONDUCTORS: A MULTISCALE MODELING
    Introduction
    Organic Single Crystals
    Tetrathiafulvalene Derivatives
    Polythiophene Derivatives
    Polymer Dielectrics
    Outlook

    MONTE CARLO STUDIES OF PHASE TRANSITIONS AND COOPERATIVE MOTION IN LANGMUIR MONOLAYERS WITH INTERNAL DIPOLES
    Introduction
    Computational Details
    Results and Discussion
    Summary

    MOLECULES ON GOLD SURFACES: WHAT THEY DO AND HOW THEY GO AROUND TO DO IT
    Introduction
    A Simple Description of the Geometrical Structure of Metals
    A Simple Description of the Geometrical Structure of Molecules
    Electronegativity Governs Chemical Interactions: Charge Equilibration, Qeq, Models
    A Simple Description of the Interaction between Metal Surfaces and Molecules
    Presence of an External Electric Potential or Field
    Generality of the Model and Its Transferability
    Thiolates on Gold
    Adsorption of a Large Molecule: C60
    Simple Packing Problems
    The Presence of an Electrostatic Potential
    Challenges and Conclusion

    PART II: Supramolecular Synthetic Chemistry

    CONJUGATED POLYMER SENSORS: DESIGN, PRINCIPLES, AND BIOLOGICAL APPLICATIONS
    Introduction
    Water Solubility
    Protein Detection
    DNA Detection
    Bacteria Detection
    Electron-Deficient Polymers
    Aggregation-Based Detection
    Temperature-Responsive Fluorescent Polymers
    Nonhomogeneous Detection Schemes
    Mechanism of Energy Transfer
    Conclusions and Future Directions

    CHROMOPHORIC POLYISOCYANIDE MATERIALS
    Introduction
    Polyisocyanide Materials
    Perylene Polyisocyanides in Devices
    TFT Devices
    Morphology Control in Perylene/Crystal Systems
    Postmodification of Polyisocyanopeptides
    Toward Larger Length Scales: Polyisocyanopeptide Brushes
    Summary and Outlook

    FUNCTIONAL POLYPHENYLENES FOR SUPRAMOLECULAR ORDERING AND APPLICATION IN ORGANIC ELECTRONICS
    Introduction
    Conjugated Polymers
    Graphene Molecules and Their Alignment
    Rylenes Dyes
    Dendritic Polyphenylenes: The Three-Dimensional Case
    Conclusion and Outlook

    MOLECULAR TECTONICS: DESIGN OF HYBRID NETWORKS AND CRYSTALS BASED ON CHARGE-ASSISTED HYDROGEN BONDS
    Introduction
    Examples of Rubust Charge-Assisted H-Bonded (CAHB) Networks
    Charge-Assisted H-Bonded Networks Based on Amidinium Tectons
    Charge-Assisted H-Bonded Networks Based on Amidinium and Polycyanometallate Tectons
    Properties of Charge-Assisted H-Bonded Networks Based on Amidinium Tectons
    Design of Crystals Based on CAHB Networks
    Conclusion

    SYNTHESIS AND DESIGN OF PI-CONJUGATED ORGANIC ARCHITECTURES DOPED WITH HETEROATOMS
    Introduction
    Boron
    Sulfur, Selenium, and Tellurium
    Miscellaneous
    Conclusions

    PART III: Nanopatterning and Processing

    FUNCTIONALIZATION AND ASSEMBLING OF INORGANIC NANOCONTAINERS FOR OPTICAL AND BIOMEDICAL APPLICATIONS
    Introduction
    Zeolite L as Inorganic Nanocontainers
    Functionalization of Zeolites: Host-Guest Chemistry and Surface and Channel Functionalizations
    Photoinduced Processes in Zeolites
    Self-Assembly in Solution and on Surfaces
    Possible Optical and Biomedical Applications of Nanocontainers

    SOFT LITHOGRAPHY FOR PATTERNING SELF-ASSEMBLING SYSTEMS
    Introduction
    Self-Assembling Systems
    Soft Lithography
    Contact Printing of SAMs with High Resolution
    Soft Lithography to Pattern Assemblies of Nanoparticles
    Soft Lithography Pattern Supramolecular Assembly
    Concluding Remarks

    COLLOIDAL SELF-ASSEMBLY OF SEMICONDUCTING POLYMER NANOSPHERES: A NOVEL ROUTE TO FUNCTIONAL ARCHITECTURES FOR ORGANIC ELECTRONIC DEVICES
    Introduction
    Formation of Semiconducting Polymer Nanospheres
    Driving Forces behind Nanoparticle Self-Assembly Processes
    Deposition Methods for Aqueous Dispersions of Semiconducting Polymer Nanospheres
    Conclusions

    PHOTOLITHOGRAPHIC PATTERNING OF ORGANIC ELECTRONIC MATERIALS
    Introduction
    Photolithographic Methods for Patterning Organic Materials
    Conclusions and General Considerations

    PART IV: Scanning Probe Microscopies

    TOWARD SUPRAMOLECULAR ENGINEERING OF FUNCTIONAL NANOMATERIALS: PREPROGRAMMING MULTICOMPONENT 2D SELF-ASSEMBLY AT SOLID-LIQUID INTERFACES
    Introduction
    Van der Waals Interactions
    Hydrogen-Bonding Interactions
    Metal-Ligand Interactions
    Conclusions and Outlook

    STM CHARACTERIZATION OF SUPRAMOLECULAR MATERIALS WITH POTENTIAL FOR ORGANIC ELECTRONICS AND NANOTECHNOLOGY
    Introduction
    Characterization Using STM and Related Technologies
    Molecular Systems with Applications in Electronics
    Optically Active Molecules
    Magnetic Systems
    STM Characterization and Biological Surface Science
    Using the STM to Initiate Chemical Reactions
    Conclusions and Perspective

    SCANNING PROBE MICROSCOPY INSIGHTS INTO SUPRAMOLECULAR PI-CONJUGATED NANOSTRUCTURES FOR OPTOELECTRONIC DIVICES
    Introduction: SPM Techniques for the Nanoscale Characterization of Organic Thin Films
    Controlling the Supramolecular Assembly and Nanoscale Morphology of Pi-Conjugated (Macro)Molecules
    Effect of the Nanoscale Morphology on the Optoelectronic Properties and Device Performances
    Conclusions and Perspectives

    SINGLE-MOLECULE ORGANIC ELECTRONICS: TOWARD FUNCTIONAL STRUCTURES
    Introduction
    Techniques
    Summary and Outlook

    VOLUME 2

    PART V: Electronic and Optical Properties

    CHARGE TRANSFER EXCITIONS IN SUPRAMOLECULAR SEMICONDUCTOR NANOSTRUCTURES
    Introduction
    Experimental Methodologies
    Delayed PL Decay Dynamics: Evidence of Charge Transfer Exciton Recombination in T6
    Distribution of Charge Transfer Exciton Radii
    Conclusions

    OPTICAL PROPERTIES AND ELECTRONIC STATES IN ANISOTROPIC CONJUGATED POLYMERS: INTRA- AND INTERCHAIN EFFECTS
    Introduction
    Polymer Properties and Orientation
    Intrachain Effects
    Interchain Effects
    Conclusions

    NANOSCALE SHAPE OF CONJUGATED POLYMER CHAINS REVEALED BY SINGLE-MOLECULE SPECTROSCOPY
    Introduction
    The Single-Molecule Approach
    Chain Shape
    Conclusions

    ELECTRONIC STRUCTURE ENGINEERING THROUGH INTRAMOLECULAR POLAR BONDS
    Introduction
    Electrostatic Considerations
    Introducing Energy Levels
    Intrinsic Intramolecular Surface Dipoles
    Implications for Materials and Devices
    Conclusions

    PART VI: Field-Effect Transistors

    CRYSTAL STRUCTURE PERFORMANCE RELATIONSHIP IN OFETS
    Introduction
    Single-Crystal OFETs
    Crystal Packing Motifs
    Polymorphism
    Summary

    BIOACTIVE SUPRAMOLECULAR ARCHITECTURES IN ELECTRONIC SENSING DEVICES
    Introduction
    Supramolecular Architectures for Organic Thin-Film Field-Effect Sensing Transistors
    Bioactive Sensing Layer
    Sensing Devices with Polyelectrolyte Multilayer Architectures
    Electronic Sensing Devices with Phospholipid Layer Architectures
    Conclusions and Perspectives

    FIELD-EFFECT DEVICES BASED ON ORGANIC SEMICONDUCTOR HETEROJUNCTIONS
    Introduction
    Field-Effect Devices
    Conclusions

    FUNCTIONAL SEMICONDUCTING BLENDS
    Introduction
    Processing Aids
    Mechanically Tough Semiconducting Blends
    Ferroelectric Semiconducting Blends
    Photovoltaic Blends
    Conclusions

    PART VII: Solar Cells

    HYBRID ORGANIC-INORGANIC PHOTOVOLTAIC DIODES: PHOTOACTION AT THE HETEROJUNCTION AND CHARGE COLLECTION THROUGH MESOSTRUCTURED COMPOSITES
    Introduction
    Basic Operating Principles of Hybrid Solar Cells
    Photoaction at the Heterojunction: Light Harvesting, Charge Generation, and Recombination
    Pore Filling and Current Collection in Hybrid Solar Cells
    Summary and Outlook

    NANOSTRUCTURED HYBRID SOLAR CELLS
    Introduction
    Motivation
    Materials
    Nanostructures
    Summary and Outlook

    DETERMINATION AND CONTROL OF MICROSTRUCTURE IN ORGANIC PHOTOVOLTAIC DEVICES
    Introduction
    Measurement of Microstructure in Polyer: Fullerene Blend Films
    Control of the Structure of Organic Photovoltaic Materials through Chemical Design
    Control of Microstructure in Polymer: Fullerene Blend Devices via Processing
    Numerical Simulations of Microstructure
    Conclusions

    MORPHOLOGY AND PHOTOVOLTAIC PROPERTIES OF POLYMER-POLYMER BLENDS
    Introduction
    Neutral Excitations at Polymer-Polymer Heterojunctions
    Polymer-Polymer Blends Formed in Nanoparticles
    Excited State and Photovoltaic Properties of Blends of M3EH-PPV with CN-Ether-PPV
    Correlation Between Heterojunction Topology and Fill Factor
    Concluding Remarks

    PART VIII: LEDs/LECs

    THE LIGHT-EMITTING ELECTROCHEMICAL CELL: UTILIZING IONS FOR SELF-ASSEMBLY AND IMPROVED DEVICE OPERATION
    Introduction
    Historical Background and Liquid-Containing LECs
    The Solid-State LEC
    The Controversial Operational Mechanism
    The Self-Assembled and Dynamic p-n Junction
    Device Performance
    Concluding Remarks

    OPTICAL AND ELECTROLUMINESCENT PROPERTIES OF CONJUGATED POLYROTAXANES
    Introduction
    Conjugated Polyrotaxanes as Insulated Molecular Wires and Organic Nanostructures
    Solution Optical Properties of Conjugated Polyrotaxanes: Control and Tuning of Intermolecular Interactions
    Role of Progressive Encapsulation in the Control fo the Photophysics of Conjugated Polyrotaxanes
    Role of Cyclodextrin Size on the Photophysics and Resistance to Quenching of Conjuated Polyrotaxanes
    Ionic Interactions in the Solid State and Solutions with Poly(ethylene Oxide) (PEO)
    Solid-State Optical and Electroluminescent Properties of Conjugated Polyrotaxanes
    Electroluminescence of Conjugated Polyrotaxanes
    Conclusions