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Nanotechnologies for Sustainable Energy: Reducing Carbon Emissions Through Clean Technologies and Renewable Energy Sources Product Image

Nanotechnologies for Sustainable Energy: Reducing Carbon Emissions Through Clean Technologies and Renewable Energy Sources

  • ID: 470553
  • May 2007
  • Region: Global
  • Cientifica Ltd

'Nanotechnologies for Sustainable Energy: Reducing Carbon Emissions Through Clean Technologies and Renewable Energy Sources' examines the impact of nanotechnology on the quest for sustainable energy.

Through a detailed analysis of technologies both currently available and under development the report concludes that
- The major near-term benefit of nanotechnologies will be in reducing weight in the transportation sector with nanocomposite materials quickly diffusing across the automotive and aerospace industries
- Over the next seven years, highest growth opportunities will come from the application of nanomaterials to making better use of existing resources rather than generating new forms of renewable energy
- Highest growth rates will be in the development of renewable energy sources while the materials sector is already crowded
- Current applications of nanotechnologies will result in a global annual saving of 8 thousand tons of carbon dioxide in 2007, rising to over a million tons by 2014

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EXECUTIVE SUMMARY
Nanotechnology Model
Definitions of Nanotechnologies
Major Assumptions
Quantifying The Effect of Nanotechnologies on Global Emissions
The Impact Of Nanotechnologies on CO2 Emissions
Reduction of Transport Emissions
Reduction of Residential and Commercial Energy Use Through Improved Insulation
Thin Film Solar Cells for Renewable Energy
Nanotechnologies for Sustainable Energy

MARKET FORECAST FOR NANOTECHNOLOGY APPLICATIONS IN SUSTAINABLE ENERGY
The Nano-Energy Landscape
Energy Saving
Storage of Renewable Energy
Energy Conversion/Production
Overall Energy Markets By Application

INTRODUCTION
How to Use This Report
Objectives of the Report
World Energy Trends
Overview of the Interaction of Sustainable Energy with Nanotechnologies in the EU
Overview of the Interaction of Sustainable Energy with Nanotechnologies in the USA
Overview of the Interaction of Sustainable Energy with Nanotechnologies in China and India
Overview of the Interaction of Sustainable Energy with Nanotechnologies in Japan
Overview of the Interaction of Sustainable Energy with Nanotechnologies in Australia
Overview of the Interaction of Sustainable Energy with Nanotechnologies in the Rest of the World
Why Sustainable Energy Needs Nanotechnologies
Market Demand Push
Technology Improvement
Environmental Issue
The Energy Sector
Common Energy Source Classifications
Conventional Energy
Renewable Energy
Clean Energy
Renewable Energy Conversion
Solar Photovoltaics
Solar Thermal Energy
Hydrogen Conversion
Thermoelectricity
Bioenergetics
Energy Storage Technologies
Batteries
Fuel Cells
Capacitors
Supercapacitors
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 Sustainable Energy
Challenge of Nanotechnology Applications in Sustainable Energy
Emission Issues
Carbon Dioxide (CO2) Emissions
Carbon Management
Nanotechnology Methods
Cost Issues
Safety Issues
Commercialization Issues
Infrastructural Issues
Intellectual Property Issues

NANOTECHNOLOGY APPLICATIONS FOR SUSTAINABLE ENERGY
Summary Of Nanotechnology Applications For Sustainable Energy
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 Storage of Renewable Energy
Rechargeable Batteries
Hydrogen Storage – Fuel Cells
Supercapacitors
REDUCING CO2 EMISSIONS IN THE TRANSPORTATION AND AUTOMOTIVE SECTOR
Summary of the Reduction of CO2 Emissions In the Transportation and Automotive Sector
Current Applications of Nanotechnology for Reducing CO2 Emissions in the Transportation and Automotive Sector
Hybrid Electric Cars Powered by Nano-Engineered Batteries
Nanocomposite Materials for Higher Performance Vehicle Parts
Paint and Clothing that can Generate Electricity
Current Adopters of Nanotechnology in Transportation and Automotive Sector
Products and Markets
Costs and Benefits
Future Projection of Nanotechnology in Energy for Transportation and Automotive Sector
Drivers and Barriers
Market Forecast
Roadmap
The Major Providers of Nanotechnology in Energy for Transportation and Automotive Sector

REDUCING CO2 EMISSIONS IN THE PORTABLE ELECTRONICS SECTOR
Summary of Reduction of CO2 Emissions in the Portable Electronics Sector
Current Applications of Nanotechnology for Reducing CO2 Emissions in 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 Markets
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

REDUCING CO2 EMISSIONS IN RESIDENTIAL AND COMMERCIAL USE
Summary of Reduction of CO2 Emissions in Residential and Commercial Use
Current Applications of Nanotechnology For Reducing CO2 Emissions in Residential and Commercial Use
Nanomaterials for Power-Efficient and Environmentally-Friendly Buildings
Nanosensors for Smart Houses
Energy-Efficient Lightening Sources
Current Adopters of Nanotechnology in Energy for Residential and Commercial Use
Products and Markets
Costs and Benefits
Future Projection of Nanotechnology in Energy for Residential and Commercial Use
Drivers and Barriers
Market Forecast
Roadmap
The Major Providers of Nanotechnology in Energy for Residential and Commercial Use

FINDINGS

APPENDIX I: NANOTECHNOLOGY AND ENERGY APPLICATIONS MATRIX
Sustainable Energy for Transportation and Automotive Sector
Sustainable Energy for Portable Electronics Sector
Sustainable Energy for Residential and Commercial Use

APPENDIX II: PROMISING NANOMATERIALS APPLICATIONS IN SUSTAINABLE ENERGY

APPENDIX III: NANOTECHNOLOGY PROVIDERS FOR SUSTAINABLE ENERGY

Table of Exhibits
Exhibit 1: Reduction Of Emissions Due To Use Of Nanotechnologies
Exhibit 2: Sources of UK CO2 Emissions
Exhibit 3: Relationship between Vehicle Weight and Fuel Consumption
Exhibit 4: Growing Uses of Composites In US Vehicles
Exhibit 5: Global Gasoline Consumption
Exhibit 6: Conversion Efficiency Of Photovoltaic Technologies
Exhibit 7: Sustained Growth of Energy Demand 1860-2060
Exhibit 8: Delivered Energy Consumption by Sector 1980-2030
Exhibit 9: Nanotechnologies for the Energy Markets
Exhibit 10: Nanotechnology Market Breakdown in Energy 2007
Exhibit 11: Nanotechnology Market Breakdown in Energy 2014
Exhibit 12: Nanotechnologies for Energy Saving Applications Market
Exhibit 13: Nanomaterials In Insulation
Exhibit 14: Nanomaterials as a Percentage of the Total Insulation Market
Exhibit 15: Total Market for Solid State Lighting Using Nanomaterials
Exhibit 16: Global Nano Fuel Borne Catalyst Market
Exhibit 17: Value of CNT Composites Used For Weight Reduction In Transport and Automotive Applications
Exhibit 18: Nanotechnologies For Energy Storage
Exhibit 19: Nanotechnology For Energy Production Market
Exhibit 20: Market by Application 2007
Exhibit 21: Market by Application 2014
Exhibit 22: Market Evolution by Application
Exhibit 23: Relevant Product Development Stages for the Different Company Types
Exhibit 24: Share of Energy Sources in Total Energy Consumptions in European Commission Countries 1990-2030 (in percentage)
Exhibit 25: European Commission Fundings in Nanotechnology
Exhibit 26: Gross Inland Energy Consumption by Country 1990-2003
Exhibit 27: Global Total Primary Energy Demand 1971-2031(Mtoe)
Exhibit 28: World Primary Energy Consumption in 2004 (Quadrillion Btu)
Exhibit 29: Renewable Power Capacities in 2004 (GW) for Developing Countries, EU, and Top Five Individual Countries (excluding large hydropower)
Exhibit 30: The Top Ten Applications of Nanotechnology for Developing Countries
Exhibit 31: Progress in PV Efficiencies
Exhibit 32: Hydrogen Conversion Technologies and Applications
Exhibit 33: Comparison of Energy/Power in Different Storage Technologies
Exhibit 34: Energy Value Chain
Exhibit 35: Value-Added Points of Nanotechnology in the Energy Value Chain
Exhibit 36: Key Drivers of Nanotechnology Applications in the Energy Sector
Exhibit 37: Drivers and Barriers of Nanotechnology Applications in Sustainable Energy
Exhibit 38: A Split of All Emissions by High-level Consumer Need
Exhibit 39: Life-Cycle Analysis Considers All Stages of The Fuel Cycle
Exhibit 40: The Worldwide Emissions of Carbon from the Burning of Fossil Fuels is Approximately 1 Tonne per Person per Year
Exhibit 41: Global Greenhouse Gas Emissions 2000
Exhibit 42: Global CO2 Emissions from Fossil Fuel Burning, Cement Manufacture, and Gas Flaring: 1751-2002
Exhibit 43: Total Greenhouse Gas Emissions by Region
Exhibit 44: Greenhouse Gas Emission from Electricity Production
Exhibit 45: Alternative Energy
Exhibit 46: Energy Efficiency
Exhibit 47: Available Storage Technologies
Exhibit 48: The Inclusion of Enery Storage Makes a Considerable Difference for Renewables
Exhibit 49: Additional Cost Caused by Adding Nanomaterials in Energy for Transportation and Automotive Sector
Exhibit 50: Drivers and Barriers of Nanotechnology Applications in Energy for Transportation and Automotive Sector
Exhibit 51: OECD and Non-OECD Transportation Sector Delivered Energy Consumption, 2003-2030
Exhibit 52: Energy Consumption in Transportation and Automotive Sector by Source (quadrillion Btu, unless otherwise noted)
Exhibit 53: Market Growth of Nanotechnologies in the Transportation Sector
Exhibit 54: The Roadmap for Future Applications of Nanotechnology in Energy for Transportation and Automotives Sector
Exhibit 55: Comparison of Battery, Fuel Cell, Capacitor and Supercapacitor
Exhibit 56: Additional Cost Caused by Adding Nanomaterials in Energy for Portable Electronics Sector
Exhibit 57: Drivers and Barriers of Nanotechnology Applications In Energy for Portable Electronics Sector
Exhibit 58: Market Growth of Nanotechnologies in the Portable Electronics Sector
Exhibit 59: The Roadmap for Future Applications of Nanotechnology in Energy for Portable Electronics Sector
Exhibit 60: Potential Applications of Nanotechnology in Energy for Residential and commercial Use
Exhibit 61: Additional Cost Caused by Adding Nanomaterials in Energy for Residential and Commercial Use
Exhibit 62: Drivers and Barriers of Nanotechnology Applications In Energy for Residential and Commercial Use
Exhibit 63: Energy Consumption in Residential and Commercial Use by Source (quadrillion Btu, unless otherwise noted)
Exhibit 64: Market Growth of Nanotechnologies in Residential and Commercial Use
Exhibit 65: The Roadmap for Future Applications of Nanotechnology in Energy for Residential and Commercial Uses

Note: Product cover images may vary from those shown
Note: Product cover images may vary from those shown

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