Semiconducting Polymer Composites
Principles, Morphologies, Properties and Applications
(Sprache: Englisch)
The first part of Semiconducting Polymer Composites describes the principles and concepts of semiconducting polymer composites in general, addressing electrical conductivity, energy alignment at interfaces, morphology, energy transfer, percolation theory and processing techniques.
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Produktinformationen zu „Semiconducting Polymer Composites “
The first part of Semiconducting Polymer Composites describes the principles and concepts of semiconducting polymer composites in general, addressing electrical conductivity, energy alignment at interfaces, morphology, energy transfer, percolation theory and processing techniques.
Klappentext zu „Semiconducting Polymer Composites “
The first part of Semiconducting Polymer Composites describes the principles and concepts of semiconducting polymer composites in general, addressing electrical conductivity, energy alignment at interfaces, morphology, energy transfer, percolation theory and processing techniques. In later chapters, different types of polymer composites are discussed: mixtures of semiconducting and insulating or semiconducting and semiconducting components, respectively. These composites are suitable for a variety of applications that are presented in detail, including transistors and solar cells, sensors and detectors, diodes and lasers as well as anti-corrosive and anti-static surface coatings.
Inhaltsverzeichnis zu „Semiconducting Polymer Composites “
PREFACE SOLUBILITY, MISCIBILITY, AND THE IMPACT ON SOLID-STATE MORPHOLOGY Introduction General AspectsSolubility, Solvents, and Solution Formulations MiscibilityConclusions NANOSCALE MORPHOLOGICAL CHARACTERIZATION FOR SEMICONDUCTIVE POLYMER BLENDSIntroduction The Importance of Morphology Control The Classic Blend: MDMO-PPV/PCBM as a Model for an Amorphous Donor SystemIntermezzo: Morphology Imaging with Scanning Transmission Electron Microscopy Volume Characterization of the Photoactive Layer: Electron Tomography Measuring Nanoscale Electrical Properties: Conductive AFMCurrent Progress and OutlookENERGY LEVEL ALIGNMENT AT SEMICONDUCTIVE POLYMER INTERFACES: CORRELATING ELECTRONIC ENERGY LEVELS AND ELECTRICAL CONDUCTIVITY Introduction General View of Electronic Structure of Organic Solids Experimental MethodsValence Electronic Structure of Organic Semiconductors: Small MoleculesValence Electronic Structure of Polymers Role of the Interface Dipole Layer: Its Impact on the Energy Level AlignmentFuture ProspectsENERGY AND CHARGE TRANSFER Introduction Energy Transfer Charge Transfer in Polymer/Fullerene Composites PERCOLATION THEORY AND ITS APPLICATION IN ELECTRICALLY CONDUCTING MATERIALSIntroductionLattice Percolation Continuum Percolation Percolation Behavior When the Interparticle Conduction Is by Tunneling The Structure of Composite MaterialsThe Observations and Interpretations of the s(x) Dependence in Composite Materials Summary and Conclusions PROCESSING TECHNOLOGIES OF SEMICONDUCTING POLYMER COMPOSITE THIN FILMS FOR PHOTOVOLTAIC CELL APPLICATIONSIntroduction Optimization of Bulk Heterojunction Composite Nanostructures Fabrication of Sub-20 nm Scale Semiconducting Polymer Nanostructure ConclusionsTHIN-FILM TRANSISTORS BASED ON POLYTHIOPHENE/INSULATING POLYMER COMPOSITES WITH ENHANCED CHARGE TRANSPORT Introduction Fundamental Principle and Operating Mode of OTFTs Strategies for Preparing High-Performance OTFTs Based on Semiconducting/Insulating Blends Blend Films
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with Vertical Stratified Structure Blend Films with Embedded P3HT Nanowires Conclusions and OutlookSEMICONDUCTING ORGANIC MOLECULE/POLYMER COMPOSITES FOR THIN-FILM TRANSISTORS Introduction Unipolar Films for OFETs Polymer/Fullerene Ambipolar OFETsConclusions ENHANCED ELECTRICAL CONDUCTIVITY OF POLYTHIOPHENE/INSULATING POLYMER COMPOSITE AND ITS MORPHOLOGICAL REQUIREMENT Introduction Phase Evolution and Morphology Enhanced Conductivity of Conjugated Polymer/Insulating Polymer Composites at Low Doping Level: InterpenetratedThree-Dimensional Interfaces Conductivity of Semiconducting Polymer/Insulating Polymer Composites Doped by Molecular DopantMechanisms for the Enhanced Conductivity/Mobility Perspective INTRINSICALLY CONDUCTING POLYMERS AND THEIR COMPOSITES FOR ANTICORROSION AND ANTISTATIC APPLICATIONSICPs and Their Composites for Anticorrosion ApplicationAntistatic CoatingSummary CONJUGATED?INSULATING BLOCK COPOLYMERS: SYNTHESIS, MORPHOLOGY, AND ELECTRONIC PROPERTIESIntroduction Oligo- and Polythiophene Rod?Coil Block Copolymers Poly(p-phenylene vinylene) Block CopolymersPolyfluorenes Other Semiconducting Rod?Coil Systems Conjugated?Insulating Rod?Rod Block Copolymers Conclusions and Outlook FULLERENE/CONJUGATED POLYMER COMPOSITE FOR THE STATE-OF-THE-ART POLYMER SOLAR CELLS Introduction Working Mechanism Optimization of Fullerene/Polymer Solar Cells Outlook SEMICONDUCTING NANOCRYSTAL/CONJUGATED POLYMER COMPOSITES FOR APPLICATIONS IN HYBRID POLYMER SOLAR CELLSIntroductionComposite MaterialsDevice StructureState of the Art of Hybrid Solar Cells Novel Approaches in Hybrid Solar Cell DevelopmentOutlook and PerspectivesCONJUGATED POLYMER BLENDS: TOWARD ALL-POLYMER SOLAR CELLS IntroductionReview of Polymer Photophysics and Device Operation Material ConsiderationsDevice Achievements to Date Key Issues Affecting All-Polymer Solar CellsSummary and OutlookCONJUGATED POLYMER COMPOSITES AND COPOLYMERS FOR LIGHT-EMITTING DIODES AND LASER IntroductionProperties of Organic Semiconductors Polymer-Based Composites Use of Polymer Composites in Photonic Applications Conclusions SEMICONDUCTING POLYMER COMPOSITE BASED BIPOLAR TRANSISTORSIntroduction Basics of Organic Field-Effect TransistorsBipolar Field-Effect Transistors PerspectivesNANOSTRUCTURED CONDUCTING POLYMERS FOR SENSOR DEVELOPMENTIntroduction Conducting Polymers and Their Nanostructures Synthetical Methods for Conducting Polymer Nanostructures Typical Conducting Polymer Nanostructures Multifunctionality of Conducting Polymer NanostructuresConducting Polymer-Based Sensors Summary and Outlook
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Autoren-Porträt
Xiaoniu Yang is the Head of the Center for Polymer Composite Engineering at the Changchun Institute of Applied Chemistry (CIAC) of the Chinese Academy of Sciences (CAS). Having obtained his academic degrees from CIAC, he spent a few years in Germany and the Netherlands before taking up his present appointment at CIAC. Professor Yang has authored more than sixty scientific publications, filed sixteen patents and received the National Science Foundation Award for Distinguished Young Scholars of China in 2009. He is also a member of the commission for Applied Chemistry of the Chinese Chemical Society.
Bibliographische Angaben
- 2012, XXII, 540 Seiten, 18 farbige Abbildungen, 239 Schwarz-Weiss-Abbildungen, Masse: 17,7 x 24,9 cm, Gebunden, Englisch
- Herausgegeben: Xiaoniu Yang
- Verlag: Wiley-VCH
- ISBN-10: 3527330305
- ISBN-13: 9783527330300
- Erscheinungsdatum: 20.11.2012
Sprache:
Englisch
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