Produktbild: Nanotechnology for the Energy Challenge

Nanotechnology for the Energy Challenge

Fr. 173.00

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Beschreibung

Produktdetails

Einband

Gebundene Ausgabe

Erscheinungsdatum

07.07.1981

Herausgeber

Javier García-Martínez

Verlag

Wiley-VCH

Seitenzahl

497

Maße (L/B/H)

24.9/17.4/4 cm

Gewicht

1125 g

Auflage

1. Auflage

Sprache

Englisch

ISBN

978-3-527-32401-9

Beschreibung

Produktdetails

Einband

Gebundene Ausgabe

Erscheinungsdatum

07.07.1981

Herausgeber

Javier García-Martínez

Verlag

Wiley-VCH

Seitenzahl

497

Maße (L/B/H)

24.9/17.4/4 cm

Gewicht

1125 g

Auflage

1. Auflage

Sprache

Englisch

ISBN

978-3-527-32401-9

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Die Leseprobe wird geladen.
  • Produktbild: Nanotechnology for the Energy Challenge
  • PART I: Sustainable Energy Production

    NANOTECHNOLOGY FOR ENERGY PRODUCTION
    Energy Challenge in the 21st Century and Nanotechnology
    Nanotechnology in Energy Production
    NANOTECHNOLOGY IN DYE-SENSITIZED PHOTOELECTROCHEMICAL DEVICES
    Introduction
    Semiconductors and Optical Absorption
    Dye Molecular Engineering
    The Stable Self-Assembling Dye Monomolecular Layer
    The Nanostructured Semiconductor
    THERMAL-ELECTRICAL ENERGY CONVERSION FROM THE NANOTECHNOLOGY PERSPECTIVE
    Introduction
    Established Bulk Thermoelectric Materials
    Selection Criteria for Bulk Thermoelectric Materials
    Survey of Size Effects
    Thermoelectric Properties on the Nanoscale: Modeling and Metrology
    Experimental Results and Discussions
    NANOMATERIALS FOR FUEL CELL TECHNOLOGIES
    Introduction
    Low-Temperature Fuel Cells
    High-Temperature Fuel Cells
    THE CONTRIBUTION OF NANOTECHNOLOGY TO HYDDROGEN PRODUCTION
    Introduction
    Hydrogen Production by Semiconductor Nanomaterials

    PART II: Efficient Energy Storage

    NANOSTRUCTURED MATERIALS FOR HYDROGEN STORAGE
    Introduction
    Hydrogen Storage by Physisorption
    Hydrogen Storage by Chemisorption
    ELECTROCHEMICAL ENERGY STORAGE: THE BENEFITS OF NANOMATERIALS
    Introduction
    Nanomaterials for Energy Storage
    Nanostructured Electrodes and Interfaces for the Electrochemical Storage of Energy
    CARBON-BASED NANOMATERIALS FOR ELECTROCHEMICAL ENERGY STORAGE
    Introduction
    Nanotexture and Surface Functionality of sp2 Carbons
    Supercapacitors
    Lithium-Ion Batteries
    NANOMATERIALS FOR SUPERCONDUCTORS FROM THE ENERGY PERSPECTIVE
    Overcoming Limitations to Superconductors' Performance
    Flux Pinning by Nanoscale Defects
    The Grain Boundary Problem
    Anisotropic Current Properties
    Enhancing Naturally Occurring Nanoscale Defects
    Artificial Introduction of Flux Pinning Nanostructures
    Self-Assembled Nanostructures
    Control of Epitaxy-Enabling Atomic Sulfur Superstructure

    PART III: Energy Sustainability

    GREEN NANOFABRICATION: UNCONVENTIONAL APPROACHES FOR THE CONSERVATIVE USE OF ENERGY
    Introduction
    Green Approaches to Nanofabrication
    Future Directions: Toward "Zero-Cost" Fabrication
    NANOCATALYSIS FOR FUEL PRODUCTION
    Introduction
    Petroleum Refining
    Naphtha Reforming
    Hydrotreating
    Cracking
    Hydrocracking
    Conversion of Syngas
    Water-Gas Shift
    Methanol Synthesis
    Fischer-Tropsch Synthesis (FTS)
    Methanation
    Nanocatalysis for Bioenergy
    The Future
    SURFACE-FUNCTIONALIZED NANOPOROUS CATALYSTS TOWARDS BIOFUEL APPLICATIONS
    Introduction
    Immobilization Strategies of Single-Site Heterogeneous Catalysts
    Design of More Efficient Heterogeneous Catalysts with Enhanced Reactivity and Selectivity
    Other Heterogeneous Catalyst System on Non-Silica Support
    NANOTECHNOLOGY FOR CARBON DIOXIDE CAPTURE
    Introduction
    CO2 Capture Processes
    Nanotechnology for CO2 Capture
    Porous Coordination Polymers for CO2 Capture
    NANOSTRUCTURED ORGANIC LIGHT-EMITTING DEVICES
    Introduction
    Quantum Confinement and Charge Balance for OLEDs and PLEDs
    Phosphorescent Materials for OLEDs and PLEDs
    Multi-Photon Emission and tandem Structure for OLEDs and PLEDs
    The Enhancement of Light Out-Coupling
    Outlook for the Future of Nanostructured OLEDs and PLEDs
    ELECTROCHROMIC MATERIALS AND DEVICES FOR ENERGY EFFICIENT BUILDINGS
    Introduction
    Electrochromic Materials
    Electrochromic Devices