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Nanotechnology: Micro-Generation of Energy Stored in Thin Film Batteries

World Energy Market Shifts, Forecasts and Strategies, 2007 to 2013

Publication Date February 2007
Publisher Wintergreen Research
Product Type Report
Pages 771
ISBN Number not applicable
Product Code WIN00021
Price

£2,560.00
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Summary

Nanotechnology is providing us next generation systems that rely on microgeneration of energy stored in thin film batteries. Nanotechnology works on both sides of the equation. Solar and wind generators are made more efficient by the use of nanoparticles in the drive and collector mechanisms. Thin film batteries use new materials created using nanotechnology to achieve components that are used to manufacture batteries 40 times more efficient than current batteries.

World energy market shifts are a result of these new renewable energy and storage technologies. Wind and solar energy can be generated and stored as DC current in residential settings. Wind and solar power can be stored by using thin film batteries that in turn are used to power electronics, LED lights, and small appliances in the home. Systems work using a direct current (DC) power system that supplements the power coming off the grid into the home.

Wind and solar generators operating in residential settings store energy in thin film batteries for use in autos. Wind and solar power stored in thin film batteries can be used to power cars by hooking the car battery to the home battery with a wire and a plug at each end of the wire. This assumes that there are lots and lots of solar panels, small windmills like would be used on a boat, and thin film batteries. The billions of units needed create economies of scale and bring prices of these products well below the $100 per unit price.

Wind power and solar power are anticipated to be long-term energy sources for thin film batteries used to run cars and to provide a DC power connection in the home. Campus based stationary fuel cells, depend on landfill and wastewater treatment plants to provide gas for providing energy to manufacture hydrogen.

Micro-generation of energy is set to bring a worldwide economic revolution brought by the availability of thin film batteries that are more fuel-efficient, charge within minutes, and hold a charge 40 times longer than existing batteries. Thin film batteries can be charged from renewable energy sources and used to power the home and car.

Additional Information

World Energy Market Shifts to 55% Energy Generation from Renewable Resources by 2018

Wintergreen Research announced today that it has released a new report detailing how renewable energy stored in thin film batteries will contribute significantly to reducing the world's growing energy demand. The world energy market study details how shifts to renewable energy mean 55% generation comes from renewable resources by 2018.

Economies of scale will drive down prices of micro generators that cost from $800 to $1200 to $50 to $100 by 2018, increasing the quality at the same time unit prices decrease. Thin film batteries that now cost $3 per watt hour are anticipated to decrease in cost to the $.15 to $.20 now typical for a lead acid battery.

Thin film batteries are solid-state devices, replacing conventional battery technology. Just as vacuum tubes were replaced by integrated circuits using solid-state technology, so also thin film battery devices that use integrated circuit packaging in some instances are replacing current battery technology. Once solar panels can use batteries to store energy when the sun is not shining, the solar panels become more useful and feasible as an energy source. Once the energy generated by the wind can be stored in a solid state storage device, micro wind generators actually become useful as sources for DC current in the home and automobile.

Nanotechnology works on both sides of the equation; it is immediately useful in thin film batteries, solar panels, and wind micro generators. Next generation renewable energy systems rely on nanoparticles in the drive and collector mechanisms. ""Micro-generation of energy is set to bring a worldwide economic revolution leveraging the availability of thin film batteries that are more fuel-efficient, charge within minutes, and hold a charge 40 times longer than existing batteries"", says Susie Eustis nanotechnology architect at Wintergreen Research.

World energy market shifts are a result of renewable energy and storage technology advances. Wind and solar energy can be generated and stored as DC current in residential settings. DC current is used to supplement the grid by powering hybrid electric cars, electronics, LED lights, and small appliances in the home. Systems work using a direct current (DC) power system that supplements the power coming off the grid into the home.

Micro generation of energy works independently of the grid. Once the micro wind turbine or solar panel has been purchased, energy is free. Now it can be stored efficiently, which was never possible before, so there are very good reasons to install micro generation.

Wintergreen Research is an independent research organization funded by the sale of market research studies all over the world and by the implementation of ROI models that are used to calculate the total cost of ownership of equipment, services, and software.

Content

  • Executive Summary
    • Demand For Electricity
    • Total Energy Usage And Thin Film Batteries And Fuel Cell Market Forecasts
    • Industrialization Requires Sustainable, Highly Efficient Energy
    • World Energy Segments And Forecasts
    • Worldwide Grid Electricity Supplemented By Off Grid Micro Generation Of Power Stored In Thin Film Batteries
    • Thin Film Batteries
    • Micro-Generation Of Energy
    • Wind And Solar Automotive Energy Stored In Thin Film Batteries
    • Dc Connectors
    • Stationary Fuel Cell Market Development
    • Stationary Fuel Cell Growth
    • Stationary Fuel Cell Market Shares
    • Worldwide Stationary Fuel Cell Market Share Analysis For Campus And Residential Markets
    • Stationary Fuel Cells Market Forecasts
    • Market For Continued Fuel Cell Commercialization On Grid And Off Grid Issues
    • New Grid Power Lines Threaten To Intrude On Preservation Natural Areas
    • Pem (Polymer Electrolyte Membrane) Fuel Cell Modules
  • 1. World Energy Market Shifts: Micro Generation Of Energy Stored In Thin Film Batteries -- Market Dynamics And Market Description
    • 1.1 Cost-Effective And Efficient Generation Of Electricity, Heat, And Air Conditioning
    • 1.2 Grid Energy
    • 1.2.1 Grid Power Lines Threaten Natural Preservation Areas
    • 1.3 Micro Generation Of Energy For Residential Markets
    • 1.4 Stationary Fuel Cells On Campus
    • 1.5 Stationary Fuel Cell Market Applications
    • 1.6 Transportation
    • 1.6.1 Fundamental Shift In Transportation Technology
    • 1.6.2 Conventional Transportation Energy Devices
    • 1.6.3 Rechargeable Batteries
    • 1.6.4 Fuel Environmental Issues
    • 1.6.5 Environmental Benefits Of Using Fuel Cell Technology
    • 1.6.6 Greenhouse Gas Emissions
    • 1.7 Battery Description Thin Film Solid-State Battery Construction
    • 1.8 Comparison Of Rechargeable Battery Performance
    • 1.9 Hydrogen Storage Methods
    • 1.10 Global Trends Driving Fuel Cell Development
    • 1.11 Fuel Cell Transportation Competitive Landscape
    • 1.11.1 Adoption Of Fuel Cells When Users See Advantages
    • 1.11.2 Hybrid Systems
    • 1.11.3 Public Awareness Of Fuel Cell Technology
    • 1.11.4 Growth Of Fuel Cell Component And Fuel Supply Base
    • 1.12 Vehicular Applications For Fuel Cells
    • 1.12.1 Parameters For Fuel Cell Powered Vehicles
    • 1.12.2 Energy Security
    • 1.12.3 Fuel-Cell Drives
    • 1.12.4 Fuel Cells For Passenger Cars
    • 1.13 Fuel Cell Vs. Internal Combustion Engine
    • 1.13.1 Hydrogen Fuel Cell Technology
  • 2. Nanotechnology: Micro Generation Of Energy Stored In Thin Film Batteries Market Shifts, Shares, And Forecasts
    • 2.1 Industrialization Requires Sustainable, Highly Efficient Energy
    • 2.2 World Energy Segments And Forecasts
    • 2.2.1 Worldwide Grid Electricity Supplemented By Off Grid Micro Generation Of Power Stored In Thin Film Batteries
    • 2.2.2 U.S. Grid Electricity Supplemented By Off Grid Micro Generation Of Power Stored In Thin Film Batteries
    • 2.3 Residential Use Of Thin Film Batteries To Store Wind And Solar Energy
    • 2.3.1 Residential Energy Sector In Developed Countries
    • 2.3.2 Residential Energy Sector In Underdeveloped Countries
    • 2.3.3 Energy Consumption By End-Use Sector
    • 2.4 Commercial Energy Sector
    • 2.4.1 Commercial Energy Sector In Developed Countries
    • 2.4.2 Commercial Energy Sector In Underdeveloped Countries
    • 2.5 Developed Economy Industrial Sector
    • 2.6 Developed Economy Transportation Sector
    • 2.6.1 Europe Energy Transport Sector
    • 2.6.2 Japanese And Asia Developed Country Energy Transport Sector
    • 2.6.3 Underdeveloped Country Energy Transport Sector
    • 2.7 Worldwide Grid Electricity Shift To Residential Thin Film Batteries Market Forecasts
    • 2.8 Total Energy Usage And Thin Film Batteries And Fuel Cell Market Forecasts
    • 2.9 World Electricity Generation, 2005-2013
    • 2.10 Heating Oil
    • 2.11 Lithium Ion Hybrid Batteries
    • 2.11.1 Volve 3cc
    • 2.11.2 Lithium And Gold
    • 2.12 Solar Panels
    • 2.12.1 Sharp
    • 2.12.2 Wind Farms In The United States
    • 2.13 Micro-Generation Of Energy
    • 2.13.1 Bergey
    • 2.13.2 Storage Of Micro-Generated Energy In Thin Film Batteries
    • 2.13.3 Fuel Cell Cogeneration
    • 2.13.4 Stationary Fuel Cells Address Global Energy Challenge
    • 2.14 Estimates Of New Renewable Energy Capacity
    • 2.14.1 Green Pricing
    • 2.14.2 Competitive Markets And Renewable Energy Certificates
    • 2.15 Stationary Fuel Cells Market
    • 2.16 Stationary Fuel Cells Combined Heat And Power (Chp)
    • 2.16.1 Stationary Fuel Cells Market
    • 2.16.2 Fuel Cells Portable Market
    • 2.16.3 Fuel Cells Transportation Market
    • 2.16.4 Worldwide Stationary Fuel Cell Market Growth Drivers
    • 2.17 Fuel Cell Market Forecasts
    • 2.17.1 Fuel Cell Home Power (1 To 50 Kw)
    • 2.17.2 Fuel Cell Campus Institutional Power (100 Kw To 5 Mw)
    • 2.17.3 Fuel Cell Remote Power (100 Kw-5 Mw)
    • 2.17.4 Utility Sofc And Phosphoric Acid Fuel Cells (Pafc)
    • 2.17.5 Utility And Sofc And Phosphoric Acid Fuel Cells Market Shares
    • 2.18 Nuclear Power
    • 2.18.1 Worldwide Nuclear Electricity Generation, Forecast 2006-2012
    • 2.19 Worldwide Uranium Mined Forecast 2006-2012
    • 2.19.1 Where The World's Uranium Lies
    • 2.19.2 Nuclear Power And Uranium Market Driving Forces
    • 2.19.3 Us Nuclear Power Planning
    • 2.19.4 Western World Uranium Production Mapped Against Demand
    • 2.19.5 Mining Methods Have Been Changing
    • 2.20 Coal
    • 2.20.1 Dangers Of Coal
  • 3. World Energy Market Shifts: Wind And Solar Micro Generation Of Energy Stored In Thin Film Batteries Product Description
    • 3.1 Thin Film Batteries
    • 3.2 Front Edge Technology (Fet)
    • 3.2.1 Front Edge Technology (Fet) Nanoenergy Ultra-Thin Rechargeable Battery Technical Information
    • 3.2.2 Front Edge Technology (Fet) Nanoenergy High Temperature Performance
    • 3.2.3 Front Edge Technology (Fet) Nanoenergy Low Temperature Performance
    • 3.2.4 Front Edge Technology (Fet) Nanoenergy Safety And Toxicity
    • 3.3 Excellatron High Rate Deposition Process (Plasma Enhanced Chemical Vapor Deposition)
    • 3.3.1 Excellatron Process To Produce Thin Film Batteries
    • 3.3.2 Excellatron Thin Film Battery Applications
    • 3.4 Eveready
    • 3.5 Ornl Thin-Film Lithium Battery
    • 3.5.1 Ornl Battery On A Chip
    • 3.5.2 Ornl Thin-Film Lithium Cells
    • 3.5.3 Ornl Thin-Film Lithium Cell Film Deposition
    • 3.5.4 Eveready
    • 3.6 Solar Power
    • 3.6.1 Mems Research Laboratories
    • 3.7 Teledyne
    • 3.7.1 Teledyne Thin Film Battery Cycle Life
    • 3.8 Residential Wind Systems
    • 3.9 Bergey Windpower
    • 3.9.1 Bergey Xl.1 Specifications
    • 3.9.2 Vestas Wind Systems
    • 3.9.3 Ampair
    • 3.9.4 Wind & Water Generators Pacific 100 Wind Generator
    • 3.9.5 Ampair Pacific 100 Wind Generator Product Features
    • 3.10 Shell Solar Panels
    • 3.11 Bp Solar 380j 80w Solar Panel
    • 3.12 Ge Solar
    • 3.13 Global Solar Sunlinq 6.5watt 12v Portable Power Pack
    • 3.14 Evergreen Solar
    • 3.14.1 Evergreen Solar
    • 3.14.2 Evergreen Solar Spruce Series 18v Photovoltaic Modules
    • 3.14.3 Evergreen Solar String Ribbon Technology
    • 3.14.4 Evergreen Solar Panels
    • 3.15 Isofoton
    • 3.16 Matrix Solar
    • 3.17 Sanyo Solar
    • 3.17.1 Sanyo's Hip-G751b 167w Solar Panel
    • 3.18 Sharp
    • 3.18.1 Sharp Solar 165 Watt Module
    • 3.19 Solarworld 24v Solar Panel
    • 3.19.1 Solarworld Models Sw165 & Sw175 Mono-Crystalline Pv Modules
    • 3.20 Sun Tech Solar Panel
    • 3.21 Sunwize 12v Solar Panel
    • 3.21.1 Sunwize Sw150/155 Solar Modules
    • 3.22 Dc Connectors
  • 4. World Energy Market Shifts: Micro Generation Of Energy Stored In Thin Film Batteries Technology
    • 4.1 Battery Cell Construction
    • 4.1.1 Thin Film Solid State Battery Construction
    • 4.1.2 Impact Of Nanotechnology
    • 4.1.3 Lithium Ion Cells Optimized For Capacity
    • 4.1.4 Flat Plate Electrodes
    • 4.1.5 Spiral Wound Electrodes
    • 4.1.6 Multiple Electrode Cells
    • 4.1.7 Fuel Cell Bipolar Configuration
    • 4.1.8 Electrode Interconnections
    • 4.1.9 Sealed Cells And Recombinant Cells
    • 4.1.10 Battery Cell Casing
    • 4.1.11 Button Cells And Coin Cells
    • 4.1.12 Pouch Cells
    • 4.1.13 Prismatic Cells
    • 4.2 Thin Film Batteries
    • 4.2.1 Thin Film Battery Timescales And Costs
    • 4.3 Naming Standards For Cell Identification
    • 4.3.1 High Power And Energy Density
    • 4.3.2 High Rate Capability
    • 4.4 Comparison Of Rechargeable Battery Performance
    • 4.5 Thin-Film Rechargeable Lithium Batteries Ut/Battelle Oak Ridge National Laboratory
    • 4.5.1 Oak Ridge Micro-Energy
    • 4.6 Polymer Film Substrate
    • 4.7 Micro Battery Solid Electrolyte
    • 4.8 Alternative Power For Autonomous Mems
    • 4.9 Lithium Technology
    • 4.10 Sony Lithium-Ion Cells
    • 4.11 Sanyo Electric Co.
    • 4.11.1 Byd
    • 4.12 Lithium-Ion/Polymer Cell Shipment Market Shares
    • 4.13 Ultralife Batteries
    • 4.13.1 Lithium Technology Corporation Technology Overview
    • 4.14 Lithium Technology Corporation (Ltc)
    • 4.15 Byd
    • 4.16 Industries International Incorporated (Indi),
    • 4.17 Cymbet™ Corporation
    • 4.17.1 Cymbet Application Specific Solid Energy Technology
    • 4.17.2 Cymbet Cells Packaging
    • 4.17.3 Cymbet Consumer Electronics
    • 4.17.4 Cymbet Medical Electronic Thin-Film Battery System
    • 4.17.5 Cymbet Military Electronic Thin-Film Battery System Military Device Systems
    • 4.17.6 Cymbet Military Electronic Thin-Film Battery System Mems And Nanotechnology Device Systems
    • 4.17.7 Cymbet™:
    • 4.17.8 Cymbet™ Combines The High Energy Density Of A Lithium Cobalt Oxide
    • 4.17.9 Cymbet Thin Film Lithium Ion Cells
    • 4.17.10 Cymbet Thin Film Battery System Advanced Features
    • 4.17.11 Thin-Film Battery Rechargeable Solution
    • 4.17.12 Thin-Film Battery Deposition Process
    • 4.18 Power Paper Battery-Assisted Uhf Rfid Chips
    • 4.19 Power Paper Thin And Flexible Energy Cells
    • 4.20 Fuel Cell Operation
    • 4.20.1 Fuel Cells Generate Electrical Power As Backup Technologies
    • 4.20.2 Conventional Solid Oxide Fuel Cells
    • 4.20.3 How-Sofc Works
    • 4.21 Fuel Cell Operation
    • 4.21.1 Fuel Cells Definition
    • 4.22 Fuel Cell Issues
    • 4.22.1 Solid Oxide Fuel Cells
    • 4.22.2 Fuel Cell Workings
    • 4.22.3 Environmental Benefits Of Fuel Cells
    • 4.22.4 Fuel-To-Electricity Efficiency
    • 4.23 Battery Function
    • 4.23.1 Ballard Secures Us$40 Million Carbon Fiber Materials Contract Extension With Major Automakers91
    • 4.24 Roadmap On Manufacturing R&d For The Hydrogen Economy
    • 4.25 California Stationary Fuel Cell Collaborative
    • 4.25.1 California Stationary Fuel Cell Collaborative Benchmarking Focus
    • 4.26 Solid State Energy Conversion Alliance (Seca)
    • 4.26.1 U.S. Department Of Energy's Solid State Energy Conversation Alliance (Seca)
    • 4.27 Seca Program At The National Technical Energy Laboratory
    • 4.27.1 Altergy Systems
    • 4.27.2 Fuelcell Energy (Fce)
    • 4.28 Energy Conversion Factors
  • 5. World Energy Company Profiles
    • 5.1 Acumentrics
    • 5.1.1 Acumentrics / U.S. Department Of Energy Solid-State Energy Conversion Alliance (Seca)
    • 5.2 Acal Energy
    • 5.3 Adaptive Materials
    • 5.4 Adelan
    • 5.5 Advent International / Rwe Energy
    • 5.6 Agni
    • 5.7 Alca Torda Applications
    • 5.8 Allps Fuel Cell System Gmbh
    • 5.8.1 System Engineering Anglo Platinum / Johnson Matthey Leading Researcher In Platinum Market
    • 5.9.1 Anglo Platinum / Johnson Matthey Fuel Cells
    • 5.10 Angstrom Power
    • 5.11 Ansaldo Fuel Cells Spa-Afc
    • 5.12 Apollo Energy Systems-
    • 5.12.1 Apollo Energy Systems Stationary Applications
    • 5.13 Aperion Energy Systems
    • 5.14 A Real World Approach Makes Fuel Cell Technology Available. Clean, Boundless Energy Revolutionizes Lives. Practical Fuel Cell Solutions Drive This Transformation. The Company Has Built An Approach To Solution Development By Listening To Customers. Areva / Cogema
    • 5.14.1 Areva Ramping Up Investments For The Restart Of Nuclear Programs
    • 5.14.2 Areva Development Is Built On A Sound Financial Position
    • 5.14.3 Areva Has Development Is Built On A Sound Financial Position Objectives
    • 5.14.4 Areva Plant Construction In Siberia
    • 5.14.5 Areva Won Two Contracts In Tunisia
    • 5.14.6 Areva Invests In Wind Power
    • 5.14.7 Areva Won Two Contracts In The Middle East
    • 5.14.8 Areva Contracts And Agreements In China
    • 5.14.9 Areva Strengthens Presence In Brazil
    • 5.14.10 Areva Proposes The Epr In China
    • 5.14.11 In Brazil, Areva Builds Two Biomass Power Plants
    • 5.14.12 Areva Workforce By Region
    • 5.14.13 Areva Revenue
    • 5.14.14 Areva Consulting And Information Systems.
    • 5.14.15 Areva Uranium Mining
    • 5.14.16 Areva Nc Pierrelatte
    • 5.14.17 Cogema Pierrelatte Wins Iso 14001 Certification
    • 5.14.18 Areva Environmental Protection
    • 5.14.19 Comurhex Malvési
    • 5.14.20 As Of March 1st; 2006, Cogema Becomes Areva Nc
    • 5.14.21 Comurhex Pierrelatte Areva And Urenco Joint Venture Etc (Enrichment Technology Company)
    • 5.14.23 Cameco Construction On The Cigar Lake Mine
    • 5.14.24 Areva / Tenex Technology Sales Agreement
    • 5.14.25 Cogema Begins Work On Treating Australian Used Fuel
    • 5.15 Astris Energi
    • 5.15.1 Astris Alkaline Fuel Cell Electric Generators
    • 5.16 Air Liquide / Axane Fuel Cell Systems
    • 5.17 Finmeccanica Group / Ansaldo Fuel Cells
    • 5.17.1 Ansaldo Fuel Cells Series 2tw
    • 5.18 Ball Aerospace & Technologies
    • 5.19 Ballard
    • 5.19.1 Ballard Total Revenues
    • 5.19.2 Ebara
    • 5.19.3 Ebara Ballard
    • 5.19.4 Ebara Local Assembly
    • 5.19.5 Japanese Government Subsidies In 2006
    • 5.19.6 Ballard Reports Improves Sales In Power Generation Markets
    • 5.19.7 Ballard 2006 Corporate Objectives
    • 5.19.8 Ballard Power Systems
    • 5.19.9 Ebara Ballard
    • Ballard Power Systems / Ebara Next Generation Of Cogeneration Fuel Cell Stack
    • 5.19.11 Ebara Ballard
    • 5.19.12 Ebara Ballard Precision Machinery
    • 5.19.13 Plug Power And Ballard Power Systems Collaboration
    • 5.19.14 Ebara Corporation
    • 5.20 Baxi Group-
    • 5.21 Bcs Technology
    • 5.22 Bhp Billiton Olympic Dam Uranium Mine
    • 5.23 British Nuclear Group (Bng)
    • 5.24 Cameco
    • 5.24.1 Cameco Uranium Price Sensitivity 2006
    • 5.24.2 Cameco Uranium Price Sensitivity (2006 To 2008)
    • 5.24.3 Cameco Uranium Spot Market Perspective
    • 5.24.4 Cameco Uranium Long-Term Market
    • 5.24.5 Cameco Uranium Operations
    • 5.24.6 Cameco Mcarthur River/Key Lake
    • 5.24.7 Cameco Rabbit Lake
    • 5.24.8 Cameco Smith Ranch-Highland And Crow Butte
    • 5.24.9 Cameco Cigar Lake
    • 5.24.10 Cameco Inkai
    • 5.24.11 Cameco Uranium Production Outlook
    • 5.24.12 Cameco Uranium Exploration Update1
    • 5.24.13 Cameco Millennium
    • 5.24.14 Cameco Regional Exploration
    • 5.24.15 Cameco Completed Acquisition Of Unor
    • 5.25 Ceramic Fuel Cells Limited (Cfcl)
    • 5.26 Celex Power
    • 5.27 Celltech Power Llc
    • 5.28 Cellennium
    • 5.29 Cenergie Corporation
    • 5.30 Ceramatec
    • 5.31 Ceres Power
    • 5.32 Clean Fuel Generation-
    • 5.33 Cmr Fuel Cells
    • 5.34 Connecticut Clean Energy Fund Ccef's Funding Comes From A Surcharge On Electric Ratepayers' Utility Bills. Constellation Energy And Electricite De France (Edf)
    • 5.36 Coval H2
    • 5.37 Ctp Hydrogen
    • 5.38 Daimler Chrysler / Mtu / Cfc-Mtu Solutions (German)
    • 5.38.1 Mtu Cfc Solutions Gmbh Joint Venture
    • 5.38.2 Cfc-Mtu Solutions (German Part Of Daimler Chrysler / Mtu)
    • 5.39 Delphi
    • Delphi Reports Fourth Quarter And Calendar Year Financial Revenue
    • 5.39.2 Delphi Technical Expertise
    • 5.39.3 Delphi Chapter 11 Cases
    • Delphi And Partner Battelle Pacific Northwest Division / Seca Program Delphi Developmental Fuel-Flexible Solid Oxide Fuel Cell Functions
    • 5.40 De Nora S.P.A
    • 5.41 Dias Analytic
    • 5.41.1 Dais
    • 5.42 Donaldson Company
    • 5.43 Dti Energy
    • 5.44 Dupont
    • Ebz Entwicklungs-Und Vertriebsgesellschaft Brennstoffzelle Mbh
    • 5.46 Esl Electric Auto Science
    • 5.47 Electrotec
    • 5.48 Electrochem
    • 5.49 Element 1 Power Systems
    • 5.50 Electric Power Research Institute
    • 5.51 Electronic Machining S.R.L.
    • 5.52 Emprise -
    • 5.53 Entegris-
    • 5.54 Eneco
    • 5.55 Enrg
    • 5.56 Energysolutions
    • 5.57 Energy Resources Of Australia Ltd. Era
    • 5.58 Engelhard
    • 5.59 Esoro
    • 5.60 Evonyx-Evionyx
    • 5.61 Exelon Generation Company Llc
    • 5.62 Five Star Technologies
    • 5.63 Fuel Cell Components And Integrators
    • 5.64 Fuel Cell Control
    • 5.64.1 Fuel Maker
    • 5.65 Fuelcell Energy
    • 5.66 Fuel Cells Ltd
    • 5.67 Fuel Cells Canada
    • 5.67.1 Industry Canada (Ic)
    • 5.68 Fuelcell Energy
    • 5.68.1 Direct Fuelcell, Dfc And Dfc/Turbine Registered Trademarks Fuelcell Energy U.S. Government Camp Pendleton 250 Kilowatts Of Power
    • 5.68.3 Fuelcell Energy Revenue
    • 5.68.4 Fuelcell Energy Revenue Second Quarter 2006
    • 5.68.5 Fuelcell Energy Corporate Developments
    • 5.68.6 Fuelcell Energy Revenue
    • 5.68.7 Fuelcell Energy Target Markets
    • 5.68.8 Fuelcell Energy Financial Highlights
    • 5.68.9 Fuelcell Energy Fy 2005 Highlights
    • 5.68.10 Fuelcell Energy Geographic Markets
    • 5.68.11 Fuelcell Energy Pursuing Market Opportunities
    • 5.68.12 Fuelcell Energy's Focus For 2006
    • 5.68.13 Fuelcell Energy / Ntt High Efficiency Power Plant
    • 5.68.14 Fuelcell Energy / Marubeni
    • 5.68.15 Fuelcell Energy Power Plant Sites Around The Globe Fuelcell Energy Development Partner, Bridgeport Fuel Cell Park, Llc Wins Pre-Development Financing For 10-Megawatt Fuel Cell Power Plant
    • 5.69 Fuel Cell Technologies Ltd.
    • 5.69.1 Fuel Cell Technologies
    • 5.69.2 Fct
    • 5.69.3 Fuel Cell Technologies Customers
    • 5.69.4 Fuel Cell Technologies Partners
    • 5.69.5 Fuel Cell Technologies Revenue
    • 5.70 Fuel Cell Technologies
    • 5.71 Fuji
    • 5.71.1 Fuji Electric Group
    • 5.72 Franklin Fuel Cells
    • 5.73 Ge
    • 5.73.1 Ge Solid Oxide Fuel Cell Program
    • 5.73.2 Ge Major Energy Research Initiatives:
    • 5.73.3 Ge Energy
    • 5.74 Gencell
    • 5.75 General Hydrogen
    • 5.75.1 General Hydrogen
    • 5.75.2 Ballard / General Hydrogen / Bridgestone In The Us
    • 5.75.3 General Hydrogen Hydrogen-Powered Hydricity® Pack Roi
    • 5.75.4 General Hydrogen
    • 5.75.5 General Hydrogen Roi
    • 5.75.6 General Hydrogen Backed By General Motors And Air Products
    • 5.76 Gesellschaft Für Angewandte Technik Mbh Greifswald (Gat)-
    • 5.77 Global Thermoelectric!
    • 5.78 Greenvolt™
    • 5.79 Greenvolt™ Mini Fuel Cell
    • 5.80 Gti -Gas Technology Institute
    • 5.81 Hoku / Sanyo
    • 5.82 Honda:
    • 5.82.1 Honda / Plug Power
    • 5.83 Hydrogen
    • 5.83.1 Hydrogen Development Activities
    • 5.83.2 Hydrogen Corporation And Hydrogen, Llc
    • 5.84 Idaho National Laboratory
    • 5.85 Idacorp / Idatech
    • Idatech Electragen(Tm)3 Critical Backup Power Fuel Cell System
    • 5.85.2 Idatech Positioning
    • 5.85.3 Idatech Europe
    • 5.85.4 Idatech Ce Certification
    • 5.85.5 Idatech Research And Development
    • 5.86 Impala Platinum
    • 5.87 Ion America
    • 5.87.1 Ion America Fuel Cell Company
    • 5.87.2 Ion America R&d Unit In Chennai, India
    • 5.87.3 Ion America Chattanooga Enterprise Center
    • 5.88 Loganenergy
    • 5.89 Mcdermott International / Sofco-Efs
    • 5.90 Matsushita Electric Industrial Co. Ltd.
    • 5.91 Mesoscopic Devices / Mesogen
    • 5.92 Millennium Cell
    • 5.93 Mitsubishi
    • 5.94 Nanodynamics
    • Navoi Mining And Metallurgical Combine (Navoi Mmc) Navoi, Uzbekistan
    • 5.96 Nuclear Construction Contractors
    • 5.97 Nu Element
    • 5.98 Nuvera Fuel Cells
    • Nuvera Fuel Cells / Rivoira / Siad Group To Expand Laboratory Plant In Italy For Testing Hydrogen-Based Fuel Cell Systems
    • 5.98.2 Nuvera
    • 5.98.3 Nuvera Fuel Cells
    • 5.98.4 Nuvera
    • 5.98.5 Nuvera Fuel Cells 5 Kw Powerflow™ Fuel Cell Power Module
    • 5.98.6 Nuvera Shareholders
    • 5.99 Palcan
    • 5.100 Pinnacle / Arizona Public Service Co (Aps)
    • 5.101 Plug Power
    • 5.101.1 Plug Power Product Development And Commercialization
    • 5.101.2 Plug Power Distribution, Marketing And Strategic Relationships
    • 5.101.3 Plug Power Gone Away From Residential Fuel Cells To Back-Up Power Generation
    • 5.101.4 Plug Power / Tyco
    • 5.101.5 Plug Power / Honda
    • 5.101.6 Plug Power / Pemeas
    • 5.101.7 Plug Power / Engelhard
    • 5.101.8 Plug Power / Dte Energy
    • 5.101.9 Plug Power Revenue
    • 5.101.10 Plug Power Revenue
    • Plug Power To Receive $217 Million Cash Investment From Interros And Norilsk Nickel Plug Power Distribution Partners To Access Targeted Markets In U.S. And South Korea
    • 5.102 Pacific Telepoint
    • 5.103 Parker Hannifin
    • 5.104 Pemeas Polymer Electrolyte Membrane (Pem)
    • 5.105 Power Air Corporation
    • 5.106 Praxair / Rivoira
    • 5.106.1 Praxair / Siad
    • 5.107 Priargunsky
    • 5.107.1 Cjsc Dalur Kurgan Region, Uksyanskoye
    • Prometheus Resources Guyana / U3o8 Corp Of Canada Subsidiary
    • 5.109 Protonetics
    • 5.110 Protonex Technology Corporation
    • Protonex Military Development Contract From Army Research Office
    • 5.110.2 Protonex To Advanced Soldier Power System Development
    • 5.110.3 Protonex Partnership With Millennium Cell
    • Protonex Raises Second Round Financing - Portable Fuel Cell Global Design/Manufacturing Partner Parker Hannifin
    • 5.110.5 Parker Hannifin Investment In Protonex
    • 5.110.6 Protonex Oem Customers
    • 5.110.7 Protonex Portable Soldier Power
    • 5.110.8 Protonex Portable Battery Charger
    • 5.110.9 Protonex From Military Development To Commercial
    • 5.110.10 Protonex 150 Series Portable Power System
    • 5.111 Proton Energy Systems
    • 5.112 Relion
    • 5.112.1 Relion Investors:
    • 5.112.2 Relion / Cea Telecom Fuel Cells
    • 5.112.3 Relion / Cea Telecom
    • 5.113 Rolls Royce Group
    • 5.113.1 Rolls Royce Fuel Cell Systems Group
    • 5.114 Rössing
    • 5.114.1 Rio Tinto Group / Rössing
    • 5.114.2 Rössing Mine 800 Employees
    • 5.114.3 Rössing Mine Operating Life
    • 5.114.4 Rössing Mine Production
    • 5.115 Rwe Nukem
    • 5.116 Rwe Ag, Essen / Rwe Fuel Cells
    • 5.117 Solid State Energy Conversion Alliance (Seca)
    • 5.118 Siemens
    • Siemens Westinghouse / Fuel Cell Technologies Strategic Partnership Siemens Sofc Power Generation System In The 5-10 Kw Range
    • 5.118.3 Siemens Power Generation Partners
    • 5.118.4 Siemens Networks
    • 5.118.5 Siemens Business Services
    • 5.118.6 Siemens Research And Development
    • 5.118.7 Siemens Information And Communication Networks
    • 5.118.8 Siemens Information And Communication Mobile Group
    • 5.118.9 Siemens Tubular Solid Oxide Fuel Cell Technology
    • 5.119 Sulzer Group / Sulzer Hexis
    • 5.120 Sxr Uranium One
    • 5.121 Takagi Industrial Co., Ltd.
    • 5.122 Toshiba-Polymer Electrolyte Fuel Cells (Pefc)
    • 5.123 Toto
    • 5.124 Ultracell
    • 5.125 Umicore
    • 5.125.1 Umicore Pmembrain(Tm) Membrane Electrode Assemblies
    • 5.126 Unitec Ceramics
    • 5.127 Uranium Information Centre Ltd
    • 5.128 United States Enrichment Corporation (Usec) Inc
    • 5.129 United Technologies
    • 5.129.1 United Technologies / Utc Power / Utc Fuel Cells Memorandum Of Understanding Signed Among Toshiba, Ifc, And Utc
    • 5.129.3 Utc Fuel Cells (Utcfc), Formerly International Fuel Cells
    • 5.129.4 Utc Fourth Quarter Revenue
    • 5.129.5 Utc Fuel Cells
    • 5.130 Viaspace / Direct Methanol Fuel Cell
    • 5.131 Wmc
    • Wmc Is Spending $50 Million Studying Expansion Plans For Olympic Dam
    • 5.132 Zao Independent Power Technologies
    • 5.133 Ztek
    • Ztek Corporation To Collaborate With U.S. Department Of Navy On Hydrogen Fueling Station
    • 5.133.2 Ztek Corporation
  • List Of Tables And Figures
    • Table - Es-1 Worldwide Energy Analysis
    • Table Es-2 Basic Technologies For Clean, Renewable Energy
    • Table Es-3 Market Driving Forces For Energy Shifts: Micro Generation Of Energy Stored In Thin Film Batteries, Nuclear And Stationary Fuel Cells
    • Table Es-4 Market Driving Forces For Energy Shifts
    • Figure Es-5 Worldwide Electricity Generation Power Source Market Segments, 2006
    • Figure Es-6 Worldwide Grid And Off Grid Electricity Generation Power Source Market Segments, 2013
    • Figure Es-7 Worldwide Grid And Off Grid Electricity Generation Power Source Market Segments, 2018
    • Table - Es-8 Packaging Thin Film Batteries In A Standard Integrated Circuit Package.
    • Table - Es-9 Worldwide Energy Market Shifts
    • Table - Es-10 Micro Generation Of Energy
    • Table - Es-11 Renewable Energy Accounts For 53% Of World Energy By 2018
    • Figure Es-12 Micro Power Generation Supplements The Grid
    • Figure Es-13 Pacific 100 Wind Generator Systems
    • Figure Es-14 Teledyne Thin Film Battery Capacity And Charging Rate Cycles
    • Table Es-15 Hypertronics D Series Circular Plastic Connectors
    • Table - Es-16 Stationary Fuel Cells Used In Campus Environments
    • Table Es-17 Commercialization Challenges Of The Stationary Fuel Cell Industry
    • Table Es-18 Worldwide Cogeneration Utility And Campus Stationary Phosphoric Acid Fuel Cells (Pafc) And Sofc Shipment Market Shares, Dollars, 2005
    • Table Es-19 Worldwide Sofc, Pem, Pafc, And Molten Carbonate Utility, Campus, And Remote Backup Stationary Fuel Cell Market Forecasts, Units And Dollars, 2006-2012 In Millions Of Dollars
    • Table Es-20 Worldwide Sofc, Pem, Pafc, And Molten Carbonate Utility, Campus, And Remote Backup Stationary Fuel Cell Market Forecasts, Units And Dollars, 2006-2012 In Millions Of Dollars
    • Table Es-21 Stationary Fuel Cell Market Driving Forces
    • Table Es-22 Specific Areas Of Cost Reduction Investigation
    • Table - Es-23 Worldwide Energy Market Shifts
    • Table - Es-24 Mega Coal Plants
    • Table - Es-25 Alliances For Clean Energy
    • Table 1-1 Worldwide Energy Sectors
    • Table 1-2 Stationary Fuel Cell Market Participants That Deliver Energy In A Campus Environment
    • Table 1-3 Stationary Fuel Cells Used In Campus Environments
    • Table 1-4 Fuel Cell Technologies Ftc Residential Applications
    • Table 1-5 Fuel Cell Technologies Ftc Application Target Markets
    • Table 1-6 Fuel Cell Technologies Ftc Communications Applications
    • Table 1-7 Ftc Commercial Applications
    • Table 1-8 Fuel Cell Ftc Industrial Applications
    • Table 1-9 Fuel Cell Ftc Military / Security Applications
    • Table 1-10 Waste Heat Recovery Applications
    • Table 1-11 Environmental Concerns Relating To Energy
    • Table 1-12 Environmental Benefits Of Using Fuel Cell Technology
    • Table 1-13 Fuel Cell Advantages Compared To Internal Combustion Engine
    • Table 1-14 Low-Carbon Production Systems
    • Figure 1-15 Typical Structure Of A Thin Film Solid State Battery
    • Table 1-16 Comparison Of Battery Performances
    • Table 1-17 Thin Films For Advanced Batteries
    • Table 1-18 Thin Film Batteries Technology
    • Table 1-19 Thin Film Battery / Lithium Air Batteries Applications
    • Table 1-20 Global Trends Driving Fuel Cell Development
    • Table 1-21 Vehicular Applications For Fuel Cells
    • Table 1-22 Parameters Of Fuel Cell Unit Powered Vehicles
    • Table 1-23 Traditional Internal Combustion Engine Type Of Work
    • Table 2-1 Market Driving Forces For Energy Shifts: Micro Generation Of Energy Stored In Thin Film Batteries, Nuclear And Stationary Fuel Cells
    • Table 2-2 Market Driving Forces For Energy Shifts
    • Figure 2-3 Worldwide Electricity Generation Power Source Market Segments, 2006
    • Figure 2-4 Worldwide Grid And Off Grid Electricity Generation Power Source Market Segments, 2013
    • Figure 2-5 Worldwide Grid And Off Grid Electricity Generation Power Source Market Segments, 2018
    • Figure 2-6 Worldwide Electricity Generation Power Source Market Segments, 2006, 2013, And 2018
    • Figure 2-7 U.S. Electricity Generation Power Source Market Segments, 2006
    • Figure 2-8 U.S. Electricity Generation Power Source Market Segments, 2013
    • Figure 2-9 U.S. Electricity Generation Power Source Market Segments, In Billions Of Kilowatt Hours 2006 And 2013
    • Table 2-10 Basic Technologies For Clean, Renewable Energy
    • Figure 2-11 Us Residential Shift To Solar, Wind, Thin Film Battery, Fuel Cells - Btu's
    • Figure 2-12 Us Residential Shift To Solar, Wind, Thin Film Battery, Fuel Cells - Percentages
    • Figure 2-13 Us Residential Energy Shifts
    • Figure 2-14 Worldwide Residential Energy Shifts
    • Figure - 2-15 Rest Of World Residential Shift To Solar, Wind, Thin Film Battery, Fuel Cells - Btu's
    • Figure - 2-16 Rest Of World Residential Shift To Solar, Wind, Thin Film Battery, Fuel Cells - Percentages
    • Figure - 2-17 Worldwide Residential Shift To Solar, Wind, Thin Film Battery, Fuel Cells - Btu's
    • Figure - 2-18 Worldwide Residential Shift To Solar, Wind, Thin Film Battery, Fuel Cells - Percentages
    • Figure - 2-19 Worldwide Commercial Shift To Solar, Wind, Thin Film Battery, Fuel Cells - Btu's
    • Figure - 2-20 Worldwide Commercial Shift To Solar, Wind, Thin Film Battery, Fuel Cells - Percentages
    • Table - 2-21 Worldwide Commercial Shift To Campus Fuel Cells Market Forecasts
    • Table - 2-22 Worldwide Industrial Shift To Campus Fuel Cells Market Forecasts
    • Table - 2-23 U.S. And Rest Of World Transportation Shift To Personal Vehicle Thin Film Batteries And Fleet Vehicle Fuel Cells Market Forecasts
    • Table - 2-24 Worldwide Transportation Shift To Personal Vehicle Thin Film Batteries And Fleet Vehicle Fuel Cells Market Forecasts
    • Table - 2-25 U.S. Grid Electricity Shift To Residential Thin Film Batteries And Campus And Grid Stationary Fuel Cells Market Forecasts
    • Table - 2-26 Rest Of World Grid Electricity Shift To Residential Thin Film Batteries And Campus And Utility Stationary Fuel Cells Market Forecasts
    • Table - 2-27 Worldwide Grid Electricity Shift To Residential Thin Film Batteries And Campus And Utility Stationary Fuel Cells Market Forecasts
    • Table - 2-28 Worldwide Energy Analysis
    • Table - 2-29 Us Total Energy Usage And Thin Film Batteries And Fuel Cell Market Forecasts
    • Table - 2-30 Us Total Energy Usage And Thin Film Batteries And Fuel Cell Market Forecasts
    • Table - 2-31 Us Total Energy Usage And Thin Film Batteries And Fuel Cell Market Forecasts
    • Table - 2-32 Worldwide Energy Market Shifts
    • Table - 2-33 Micro Generation Of Energy
    • Table - 2-34 Renewable Energy Accounts For 53% Of World Energy By 2018
    • Table - 2-35 World Energy Generation, 2005-2013
    • Table - 2-36 U.S. Energy Generation, 2005-2013
    • Table - 2-37 European Energy Generation, 2005-2013
    • Table - 2-38 Asian Energy Generation, 2005-2013
    • Table - 2-39 Rest Of World Energy Generation, 2005-2013
    • Figure 2-40 Periodic Table
    • Figure 2-41 Valence Technology Thin Film Auto Battery
    • Figure 2-42 Valence Technology Auto Using Thin Film Battery
    • Table 2-43 Solarworld Mono-Crystalline Pv Modules Benefits
    • Table 2-43 Energy Consumption By Sector
    • Figure 2-44 Bergey Wind Generator Systems
    • Figure 2-45 Pacific 100 Wind Generator Systems
    • Figure 2-46 Teledyne Thin Film Battery Capacity And Charging Rate Cycles
    • Table 2-47 New Renewable Capacity Supplying Green Power Markets, 2006
    • Table 2-48 New Renewable Capacity Supplying Green Pricing Programs
    • Table 2-49 New Renewables Capacity Supplying Competitive Markets And Renewable Energy Certificates
    • Figure 2-50 Stationary Fuel Cell Used In Campus Environments
    • Table 2-51 Worldwide Stationary Fuel Cell Market Growth Drivers
    • Table 2-52 Worldwide Stationary Fuel Cell Market Segments
    • Table 2-53 Fuel Cell Technology Positioning
    • Figure 2-54 Worldwide Cogeneration Utility And Campus Stationary Phosphoric Acid Fuel Cells (Pafc), Pem, Mfc, And Sofc Shipment Market Forecasts, Dollars, 2006-2012
    • Table 2-55 Worldwide Cogeneration Utility And Campus Stationary Phosphoric Acid Fuel Cells (Pafc), Pem, Mcfc, And Sofc Shipment Market Forecasts, Dollars, 2006-2012
    • Figure 2-56 Worldwide Cogeneration Utility And Campus Stationary Phosphoric Acid Fuel Cells (Pafc) And Sofc Shipment Market Shares, Dollars, 2005
    • Table 2-57 Worldwide Cogeneration Utility And Campus Stationary Phosphoric Acid Fuel Cells (Pafc) And Sofc Shipment Market Shares, Dollars, 2005
    • Table 2-58 Nuclear Reactors, Number And Mwe By Country 2005
    • Table 2-59 Nuclear Electricity Generation By Country In 2005
    • Figure 2-60 Worldwide Nuclear Electricity Generation, Forecast 2006-2012
    • Table 2-61 Worldwide Nuclear Electricity Generation, Forecast 2006-2012
    • Figure 2-62 Worldwide Uranium Mined, Forecast 2006-2012
    • Table 2-63 Where The World's Uranium Lies
    • Table 2-64 Known Recoverable Resources* Of Uranium
    • Table 2-65 Uranium Market Driving Forces
    • Table 2-66 Western World Uranium Production Mapped Against Demand 1945-2002
    • Table 2-67 World Nuclear Power Reactors 2005-06 And Uranium Requirements
    • Table 2-68 World Nuclear Power Reactors 2005-06 And Uranium Requirements
    • Table 2-69 Nuclear Uranium Production From Mines Share Figures, 1995-2005
    • Table 2-70 Nuclear Uranium Production Methods Segments 2005
    • Table 2-71 Nuclear Electricity Generation 2005
    • Table - 2-72 Worldwide Energy Market Shifts
    • Table - 2-73 Mega Coal Plants
    • Table - 2-74 Alliances For Clean Energy
    • Table 3-1 Front Edge Technology (Fet) Nanoenergy Ultra-Thin Rechargeable Battery Key Features
    • Table 3-2 Front Edge Technology (Fet) Nanoenergy Ultra-Thin Rechargeable Battery Technical Information
    • Table 3-3 Excellatron Deposition Of Solid State Electrolyte By The Pecvd Process
    • Table 3-4 Ornl Solid-State Thin-Film Batteries Offer Advantages
    • Table 3-5 Major Challenges To Ornl For The Development Of The Lithium Cells
    • Figure 3-6 Teledyne Nanoenergytm Powering A Blue Led
    • Table 3-7 Teledyne Typical Charging Curve Of A 0.9 Mah Batter
    • Figure 3-8 Teledyne Nanoenergytm Discharge Rates And Discharge Characteristics
    • Figure 3-9 Teledyne Thin Film Battery Capacity And Charging Rate Cycles
    • Figure 3-10 Bergey Wind Xl.1
    • Table 3-11 Bergey Xl.1 Specifications
    • Table 3-12 Bergey Xl.1tilt Up Tower Kits Available
    • Figure 3-13 Ampair Pacific 100 Wind Generator Systems
    • Figure 3-14 Pacific 100 Stern Mount Systems
    • Table 3-15 Ampair Pacific 100 Wind Geneproduct Features
    • Table 3-16 Ampair Pacific 100 Wind Generator Installation
    • Figure 3-17 Pacific 300 Generates 360ah Of Power A Day
    • Figure 3-18 General Electric Solar Panel
    • Table 3-19 General Electric Solar Panel Features
    • Table 3-20 General Electric Solar Panel Benefits
    • Table 3-21 Ge Solar Panel Typical Performance Characteristics
    • Figure 3-22 Evergreen Solar Panel
    • Figure 3-23 Evergreen Solar String Ribbon Technology
    • Figure 3-24 Evergreen Solar
    • Figure 3-25 Evergreen Solar Panel Mounting
    • Table 3-26 Matrix Solar Panel
    • Table 3-27 Matrix Solar Special Features And End Uses:
    • Table 3-28 Sanyo's Hip-G751b 167w Solar Panel Features:
    • Figure 3-29 Sanyo's Hip-G751b 167w Solar Panel
    • Table 3-30 Sharp Solar 165 Watt Module Features
    • Table 3-31 Sharp Solar Cell Ratings
    • Table 3-32 Solarworld Mono-Crystalline Pv Modules Benefits
    • Table 3-33 Sun Tech Solar Panel Performance
    • Table 3-34 Sun Tech Solar Panel Features
    • Table 3-35 Sunwize Sw150/155 Solar Modules Features:
    • Table 3-36 Sunwizsw155 Dimensions / Specifications
    • Table 3-37 Hypertronics D Series Circular Plastic Connectors
    • Table 4-1 Thin Film Solid State Battery Construction
    • Table 4-2 Thin Film Lithium Battery Construction
    • Table 4-3 Thin Film Solid State Battery Safety Security Protections
    • Table 4-4 Common Household-Battery Sizes, Shape, And Dimensions
    • Table 4-5 Thin Film Battery Unique Properties
    • Table 4-6 Comparison Of Battery Performances
    • Table 4-7 Comparison Of Battery Performances
    • Table 4-8 Thin Films For Advanced Batteries
    • Table 4-9 Thin Film Batteries Technology
    • Table 4-10 Thin Film Battery / Lithium Air Batteries Applications
    • Figure 4-11 Polymer Film Substrate Thin Flexible Battery Profiles
    • Figure 4-12 Design Alternatives Of Thin Film Rechargable Batteries
    • Table 4-13 Advantages Of Using Alternative Energy Power Systems To Supply Micro Power To Mems
    • Table 4-14 Selected Lithium Technology Corporation Customers
    • Table 4-15 Cymbet™ Thin-Film Battery System Key Features
    • Table 4-16 Cymbet™ Thin-Film Battery System Smart Card Applications
    • Table 4-17 Cymbet Application Specific Solid Energy Technology
    • Table 4-18 Cymbet Application Specific Solid Energy Technology Recharge Characteristics
    • Table 4-19 Cymbet Surface Mountable Battery Packaging Key Features
    • Table 4-20 Cymbet Consumer Electronics Lightweight Energy Source Key Features
    • Table 4-21 Cymbet Medical Electronic Thin-Film Battery System Key Features
    • Table 4-22 Cymbet Medical Electronic Thin-Film Battery System Medical Device Industry Target Markets
    • Table 4-23 Cymbet Military Electronic Thin-Film Battery System Military Device Systems Key Features
    • Table 4-24 Cymbet Thin Film Battery System Advanced Features
    • Table 4-25 Cymbet Thin Film Battery System Applications
    • Figure 4-26 Fuel Cell
    • Figure 4-27 Celltech Power Lta-Sofc
    • Table 4-28 Fuel Cell Operation
    • Table 4-29 Fuel Cell Characteristics
    • Table 4-30 Fuel Cell Description
    • Table 4-31 Fuel Cell Issues
    • Table 4-32 Fuel Cell System
    • Table 4-33 Conceptual Operation Of A Fuel Cell.
    • Table 4-34 Fuel Cell System Relative Efficiencies
    • Figure 4-35 Celltech Liquid Anode
    • Table 5-1 Allps Fuel Cell System Gmbh Positioning
    • Figure 5-2 Angstrom Power Micro-Structured Fuel Cells
    • Table 5-3 Areva Energy Business Positioning
    • Figure 5-4 Areva Sales By Region
    • Figure 5-5 Areva Nuclear Reactor And Services Sales
    • Table 5-6 Astris Fuel Cells
    • Table 5-7 Astris Fuel Cell Generators
    • Table 5-8 Key Features Of The Ballard Mark 1030 V3 Fuel Cell
    • Table 5-9 Ballard 2006 Corporate Objectives
    • Table 5-10 Cameco Construction Of The Cigar Lake Mine Project Aspects: Cameco's Share Of Production (Millions Pounds U3o8)
    • Table 5-11 Cameco Forecast Production Key Assumptions
    • Table 5-12 Fuelcell Energy Multi-Megawatt Opportunities
    • Table 5-13 Fuelcell Energy Target Markets
    • Table 5-14 Ge Major Energy Research Initiatives
    • Table 5-15 Global's Tegs Target Markets
    • Table 5-16 Hydrogen Principal Goals Of Development
    • Table 5-17 Fuel Cell Reforming 500 Kwe Proton Exchange Membrane Fuel
    • Figure 5-18 Cjsc Dalur Carries Out Uranium Mining
    • Table 5-19 Protonex 150 Series Portable Power System Functions
    • Table 5-20 Proton Energy Systems
    • Table 5-21 Relion Investors
    • Table 5-22 Rössing Mine Production Performance Data Table
    • Table 5-23 Uranium Information Centre Principal Aims

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