エネルギー市場におけるナノテクノロジーの利用：ポータブルエレクトロニクス部門

Abstract

The report concludes that

• The most immediate opportunities lie in saving energy through the use of advanced materials and this is already a $1.6 billion dollar market, predicted to rise to$ 51 billion by 2014
• Despite advances in battery technology, hydrogen storage and fuel cells, energy saving technologies will exhibit faster growth, accounting for 75% of the market for nanotechnologies in 2014, up from 62% in 2007
• The adoption of energy generation technologies is highly sensitive to geopolitical factors and consumer acceptance, while energy saving technologies exhibit no such problems
• Solid state lighting, nanocomposite materials, aerogels and fuel borne catalysts will have the greatest impact between now and 2014
• Compound annual growth rates are 64% for energy saving technologies and 90% for energy generation, while energy storage applications show a comparatively lowly 30%.
• Applications in transportation will increase to $50 billion by 2014 with a CAGR of 72%

Table of Contents

EXECUTIVE SUMMARY

MARKET FORECAST FOR NANOTECHNOLOGY APPLICATIONS IN THE ENERGY SzECTOR

• Cientifica Nanotechnology Model
  • Definitions of Nanotechnologies
  • Major Assumptions
• The Nano-Energy Landscape
  • Energy Saving
  • Energy Storage
  • Energy Production
• Overall Energy Markets By Application

INTRODUCTION

• How to Use This Report
• Objectives of the Report
• World Energy Trends
  • Overview of the Interaction of the Energy Sector with Nanotechnologies in the EU
  • Overview of the Interaction of the Energy Sector with Nanotechnologies in the USA
  • Overview of the Interaction of the Energy Sector with Nanotechnologies in China and India
  • Overview of the Interaction of the Energy Sector with Nanotechnologies in Japan
  • Overview of the Interaction of the Energy Sector with Nanotechnologies in Australia
  • Overview of the Interaction of the Energy Sector with Nanotechnologies in the Rest of the World
• Why Energy Needs Nanotechnologies
  • Market Demand Push
  • Technology Improvement
  • Environmental Issue
• The Energy Sector
  • Common Energy Source Classifications
  • Renewable Energy Conversions
  • Energy Storage Technologies
• Value Chain And Value-Added Points Of Nanotechnology In The Energy Sector
  • Energy Sector Value Chain
  • Value-Added Points of Nanotechnology in the Energy Value Chain
• Key Drivers of Nanotechnology Applications in the Energy Sector
• Challenge of Nanotechnology Applications in the Energy Sector
  • Cost Issues
  • Safety Issues
  • Commercialization Issues
  • Infrastructural Issues
  • Intellectual Property Issues
• NANOTECHNOLOGY APPLICATIONS IN THE ENERGY SECTOR
  • Summary Of Nanotechnology Applications In The Energy Sector
  • Introduction
  • Nanotechnologies For Sustainability And Efficiency Of Fossil Fuels/Energy Saving
    • Lighter and Stronger Materials
    • Thermal Management
    • Solid-State Lighting - More Efficient Lighting Point Sources
    • More Efficient Lighting For Large Areas
    • Efficient Combustion
  • Nanotechnologies for Energy Conversion / Production
    • Solar Photovoltaics (PV) - Solar Cells
    • Hydrogen Conversion
    • Waste Heat Recovery/Thermoelectricity
    • Solar Thermal Energy
    • Geothermal Energy
    • Biomass
  • Nanotechnologies for Energy Storage
    • Rechargeable Batteries
    • Hydrogen Storage - Fuel Cells
    • Supercapacitors
• APPLICATIONS OF NANOTECHNOLOGY IN ENERGY FOR PORTABLE ELECTRONICS SECTOR
  • Summary of Applications of Nanotechnology in Energy for the Portable Electronics Sector
  • Current Applications of Nanotechnology in Energy for the Portable Electronics Sector
    • Better Li-Ion Batteries for Portable Devices
    • Supercapacitor for Fast Recharging Portable Devices
    • Efficiency -Improved Displays
    • Nanocomposite Materials for Lighter and Stronger Devices
    • High Performance Renewable Power Generation
    • Electronic Clothing and Powering Systems
• Current Adopters of Nanotechnology in Portable Electronics Sector
  • Products and Market
  • Costs and Benefits
• Future Projection of Nanotechnology in Energy for Portable Electronics Sector
  • Drivers and Barriers
  • Market Forecast
  • Roadmap
• The Major Providers of Nanotechnology in Energy for Portable Electronics Sector

FINDINGS

APPENDIX I: NANOTECHNOLOGY AND ENERGY APPLICATIONS MATRIX

APPENDIX II: PROMISING NANOMATERIALS APPLICATIONS IN THE ENERGY SECTOR

APPENDIX III: NANOTECHNOLOGY PROVIDERS IN THE ENERGY SECTOR

Table of Exhibits

• Exhibit 1: Sustained Growth of Energy Demand 1860-2060
• Exhibit 2: Delivered Energy Consumption by Sector 1980-2030
• Exhibit 3: Nanotechnology Energy Markets
• Exhibit 4: Market Breakdown 2007
• Exhibit 5: Market Breakdown 2014
• Exhibit 6: Nanotechnologies for Energy Saving Applications Market
• Exhibit 7: Nanomaterials In Insulation
• Exhibit 8: Nanomaterials as a Percentage of the Total Insulation Market
• Exhibit 9: Total Market for Solid State Lighting Using Nanomaterials
• Exhibit 10: Global Nano Fuel Borne Catalyst Market
• Exhibit 11: Value of CNT Composites Used For Weight Reduction In Transport and Automotive Applications
• Exhibit 12: Nanotechnologies For Energy Storage
• Exhibit 13: Nanotechnology For Energy Production Market
• Exhibit 14: 2007 Market by Application
• Exhibit 15: 2014 Market by Application
• Exhibit 16: Market Evolution by Application
• Exhibit 17: Relevant Product Development Stages for the Different Company Types
• Exhibit 18: Share of Energy Sources in Total Energy Consumptions in European Commission Countries 1990-2030 (in percentage)
• Exhibit 19: Gross Inland Energy Consumption by Country 1990-2003
• Exhibit 20: Global Total Primary Energy Demand 1971-2031(Mtoe)
• Exhibit 21: World Primary Energy Consumption in 2004 (Quadrillion Btu)
• Exhibit 22: Renewable Power Capacities in 2004 (GW) for Developing Countries, EU, and Top Five Individual Countries (excluding large hydropower)
• Exhibit 23: The Top Ten Applications of Nanotechnology for Developing Countries
• Exhibit 24: Progress in PV Efficiencies
• Exhibit 25: Hydrogen Conversion Technologies and Applications
• Exhibit 26: Comparison of Energy/Power in Different Storage Technologies
• Exhibit 27: Energy Value Chain
• Exhibit 28: Value-Added Points of Nanotechnology in the Energy Value Chain
• Exhibit 29: Key Drivers of Nanotechnology Applications in the Energy Sector
• Exhibit 30: Drivers and Barriers of Nanotechnology Applications in Energy Sectors
• Exhibit 37: Comparison of Battery, Fuel Cell, Capacitor and Supercapacitor
• Exhibit 38: Additional Cost Caused by Adding Nanomaterials in Energy for Portable Electronics Sector
• Exhibit 39: Drivers and Barriers of Nanotechnology Applications In Energy for Portable Electronics Sector
• Exhibit 40: Portable Electronics Market
• Exhibit 41: The Roadmap for Future Applications of Nanotechnology in Energy for Portable Electronics Sector