Worldwide Micro Fuel Cell Market Shares Strategies, and Forecasts, 2009-2015

Table of Contents

MICRO FUEL CELL EXECUTIVE SUMMARY

• Micro Fuel Cell Market Driving Forces
• Micro Fuel Cell Market Shares
• Micro Fuel Cell Market Forecasts

1. MICRO FUEL CELL MARKET DESCRIPTION AND MARKET DYNAMICS

• 1.1 Fuel Cell Description
  • 1.1.1 Fuel Cell Efficiency
  • 1.1.2 Fuel Cell Electrochemical Converter -- Clean Energy
  • 1.1.3 DMFC Fuel Cells
  • 1.1.4 Micro Fuel Cell Hours Of Operation And Power Degradation 1-6
  • 1.1.5 Cathode Catalysts
  • 1.1.6 Micro Fuel Cell Description
• 1.2 United States Has Approved The Use Of Some Micro Fuel Cells In Airplanes
  • 1.2.1 Market Opportunity for Micro Fuel Cell Products
• 1.3 Micro Fuel Cell Target Markets
  • 1.3.1 Military As A Micro Fuel Cell Target Market
  • 1.3.2 Micro Fuel Cell Portable Medical Equipment
  • 1.3.3 Micro Fuel Cell Laptop Computer Market
  • 1.3.4 Micro Fuel Cell Consumer Electronics Portable Power Source 1-22
  • 1.3.5 Micro Fuel Cell Laptop Computer Power Source
  • 1.3.6 Mobile Life Fuel Cell Power
  • 1.3.7 Persistent Computing Requires Extended Power
  • 1.3.8 First Responders
  • 1.3.9 Instant Recharge for Continuous Computing
  • 1.3.10 RV Recreational Micro Fuel Cell Markets
• 1.4 Fuel Cell Fuel Distribution and Infrastructure
• 1.5 Approvals From The United Nations And Related Regulatory Organizations
  • 1.5.1 Fuel Cells Compared to Rechargeable Batteries

2. MICRO FUEL CELL MARKET SHARES AND MARKET FORECASTS

• 2.1 Micro Fuel Cell Market Driving Forces
  • 2.1.1 Driving Forces of Micro Fuel Cell Products
• 2.2 Micro Fuel Cell Market Shares
  • 2.2.1 Toshiba Direct Methanol Micro Fuel Cell
  • 2.2.2 Toshiba Standards Leader
  • 2.2.3 Toshiba Fuel Cell Reference Model
  • 2.2.4 Mechanical Technology Inc (MTI) MTI Fourth Quarter And Year End Results
  • 2.2.5 Smart Fuel Cell Products and Markets
  • 2.2.6 PolyFuel DMFC Membrane
  • 2.2.7 PolyFuel Engineered Membranes
  • 2.2.8 Poly Fuel Prototype Notebook Computer Fuel Cell Power Supply
  • 2.2.9 Medis 2-22
  • 2.2.10 Medis Targets End Users
  • 2.2.11 Medis 24/7 Power Pack
• 2.3 Micro Fuel Cell Market Forecasts
  • 2.3.1 Hybrid Technologies
  • 2.3.2 Sample Quotes on Market Size:
• 2.4 Mobile Handset Subscribers
  • 2.4.1 Enterprise Wireless Handset Markets
• 2.5 Micro Fuel Cell Prices
  • 2.5.1 Smart Fuel Cell EFOY
  • 2.5.2 Fuel Cell Cartridges Approved For Commercial Aircraft
  • 2.5.3 Fuel Cell Technology Decreases The Weight Soldiers Carry
• 2.6 Regional Energy Demand
  • 2.6.1 United Kingdom Leader in Carbon Offset Initiatives
  • 2.6.2 Germany
  • 2.6.3 Japan 2-41
  • 2.6.4 Military Uses Of Micro Fuel Cells

3. MICRO FUEL CELL PRODUCT DESCRIPTION

• 3.1 Micro Fuel Cells Power Digital Devices
• 3.2 Toshiba
  • 3.2.1 Toshiba DMFC-Powered Audio Players
  • 3.2.2 Toshiba Micro Fuel Cell
  • 3.2.3 Toshiba Direct Methanol Fuel Cell
  • 3.2.4 Toshiba Methanol Concentration
• 3.3 Samsung
• 3.4 Poly Fuel
  • 3.4.1 PolyFuel Cartridges Approved For Commercial Aircraft By Regulatory Agencies
  • 3.4.2 PolyFuel Functional Prototype Of A Notebook PC Fuel Cell Power Supply
  • 3.4.3 PolyFuel Engineered Polymer Nano Fuel Cell Architectures
• 3.5 Smart Fuel Cell
  • 3.5.1 Smart Fuel Cell Products and Markets
  • 3.5.2 Smart Fuel Cell Remote Traffic Systems
  • 3.5.3 Smart Fuel Cell Projects
  • 3.5.4 Smart Fuel Cell EFOY Cartridges
• 3.6 UltraCell C XX25
  • 3.6.1 UltraCell' s XX25 Communication
  • 3.6.2 UltraCell XX25™ Fuel Cell Powering A Field Repeater
  • 3.6.3 UltraCell XX25™ Fuel Cell Powering A Field Repeater
  • 3.6.4 UltraCell Light-Weight And Portable Power Sources For Military
  • 3.6.5 UltraCell U.S. Military Validation:
  • 3.6.6 UltraCell Altitude Test
  • 3.6.7 UltraCell Foreign Military Programs:
  • 3.6.8 UltraCell Partnership With Tatung System Technologies
  • 3.6.9 UltraCell is partnered with ABSL
  • 3.6.10 UltraCell is partnered with TSTI
  • 3.6.11 UltraCell Products
  • 3.6.12 UltraCell XX25 MiTAC, General Dynamics and Panasonic Homeland Security
• 3.7 Manhattan Scientifics Micro Fuel Cell
  • 3.7.1 Manhattan Scientifics MicroFuel Cell™
• 3.8 Medis Technologies
  • 3.8.1 More Energy Subsidiary Of Medis Technologies
  • 3.8.2 Medis Technologies Department of Defense in Wearable Power
  • 3.8.3 Medis Fuel Cell Provides 20 Watt Hours Of Total Energy
  • 3.8.4 Medis Portable Fuel Cell Market
  • 3.8.5 Medis 24/7 Power Pack
  • 3.8.6 Medis / General Dynamics C4 Systems Promote 24/7 Power Pack For Military Use
  • 3.8.7 Medis / General Dynamics Competitive Advantages
  • 3.8.8 Medis Target End Users
  • 3.8.9 Medis 24-7 Power Pack Benefits
• 3.9 Mechanical Technology Incorporated (MTI)
  • 3.9.1 MTI Micro Fuel Cell Life Test
  • 3.9.2 MTI Micro / Neosolar Co-Develop MobionR Digital Devices For Consumers
  • 3.9.3 MTI Micro Cord-Free Rechargeable Power Pack
  • 3.9.4 MTI Micro MobionR Chip
  • 3.9.5 MTI MobionR Advantage
  • 3.9.6 MTI Pocket Fuel Cells
• 3.10 Tekion 3-69
  • 3.10.1 Tekion Power Source
  • 3.10.2 Tekion Fuel Cell On A Chip
  • 3.10.3 Tekion Formira
  • 3.10.4 Tekion / BASF Formic Acid
• 3.11 NEC Fuel-Cell Handsets
  • 3.11.1 NEC 3-80
  • 3.11.2 NEC Fuel Cell Carbon Nanotubes Toshiba / CRDC Compact Fuel Cell For Notebook PCs
• 3.12 Sony Hybrid Fuel Cell System
• 3.13 Angstrom Power
  • 3.13.1 Angstrom Micro Hydrogen™ Systems for Portable Power
  • 3.13.2 Micro Hydrogen™ for Device Integration
  • 3.13.3 Angstrom Power Better Than Batteries™ Performance
  • 3.13.4 Angstrom Benefits Of Micro Hydrogen™ Systems
  • 3.13.5 Angstrom Micro Hydrogen Products
• 3.14 Neah Power Systems
  • 3.14.1 Neah Power Systems Military
  • 3.14.2 Neah Power Systems Mobile Life
  • 3.14.3 Neah Power Systems First Responders
  • 3.14.4 Neah Power Systems Logistics
  • 3.14.5 Neah Solution Silicon-Based Architecture
  • 3.14.6 Neah Power Systems Water Vapor Captured In Cartridge
  • 3.14.7 Neah Power Military Positioning
• 3.15 BIC 3-113
• 3.16 Masterflex
• 3.17 Microcell Corporation
  • 3.17.1 Microcell Products
• 3.18 3-118
• 3.19 Casio Laptop Fuel Cell
• 3.20 Smart Fuel Cell (SFC) Fuel Cell Systems
  • 3.20.1 Smart Fuel Cell (SFC) Direct Methanol Fuel Cells
  • 3.20.2 Smart Fuel Cell (SFC) Applications
  • 3.20.3 Smart Fuel Cell (SFC) Electric Device Power
  • 3.20.4 SFC DMFC

4. MICRO FUEL CELL TECHNOLOGY

• 4.1 Significant Progress In Development of Compact Micro Fuel Cell
• 4.2 Medis Micro Fuel Cell Underwriters' Laboratories (UL) listing
• 4.3 Comparison of PEM Based Silicon Bed DMFC
• 4.4 Nanowire Battery Can Hold 10 Times The Charge Of Existing Lithium-Ion Battery
  • 4.4.1 Silicon In A Battery Swells As It Absorbs Lithium Atoms
  • 4.4.2 Neah Solution Silicon-Based Architecture
  • 4.4.3 Neah Water Vapor Captured in Cartridge
  • 4.4.4 Neah Silicon Pragmatic and Scalable
• 4.5 PEM Fuel Cells
• 4.6 Solvay
• 4.7 SGL Technologies
  • 4.7.1 SigracetR Fuel Cell Components
• 4.8 PolyFuel Engineered Membranes For Fuel Cells
  • 4.8.1 Fluorocarbon Membranes Based Upon The TeflonR Polymer
  • 4.8.2 Polyfuel Hydrogen Membrane
• 4.9 Fuel Cell Electrochemical Reaction
• 4.10 Organizations With Fuel Cell Information
  • 4.10.1 SFC Energetic Revolution powered by Smart Fuel Cell
• 4.11 Clean And Silent Micro Fuel Cell Power Generation By Methanol
• 4.12 Storing Hydrogen
  • 4.12.1 Sodium Borohydride Storing of Hydrogen
  • 4.12.2 Borohydride Hydrogen Generation
  • 4.12.3 International Electrotechnical Commission Forms Working Group 4-31
• 4.13 PolymerElectrolyte Membrane
• 4.14 Sodium Borohydride Chemical Power
• 4.15 Bacterial Enzymes Replacement For The Platinum Catalysts
• 4.16 Portable Applications
  • 4.16.1 Fuel Cell Power Packs
  • 4.16.2 PolyFuel Honeycomb Membrane
  • 4.16.3 Portable Electronic Fuel Cell Devices
  • 4.16.4 Marketing Limitation Of Hydrogen Gas Or Methanol Powered Fuel Cells
  • 4.16.5 Hitachi Compact DMFC
  • 4.16.6 NEC Compact DMFC
  • 4.16.7 Toshiba' s DMFC
  • 4.16.8 Toshiba Fuel Cell

5. Micro Fuel Cell Company Profiles

• 5.1 Altair Nanomaterials
  • 5.1.1 Altair Nanotechnologies Partners
  • 5.1.2 Altair Nanotechnology Power and Energy Systems
  • 5.1.3 Altair Nanotechnology Performance Materials Division
  • 5.1.4 Altair Nanotechnology Life Sciences
  • 5.1.5 Altair Nanotechnology Net Losses In Each Fiscal Year
  • 5.1.6 AlSher Titania Joint Venture With Sherwin-Williams
  • 5.1.7 Altair Nanotechnology BAE Systems
  • 5.1.8 Altair Nanotechnologies Faster Recharging And Discharging
  • 5.1.9 Altair Nanotechnologies Longer Battery Life
  • 5.1.10 Altairnano
• 5.2 Angstrom Power
  • 5.2.1 Angstrom Power Micro Fuel Cell Technology
• 5.3 Asahi Glass
  • 5.3.1 Asahi Glass Financials
  • 5.3.2 Asahi Glass Business Strategy
  • 5.3.3 Asahi Glass Owners
• 5.4 Ballard
  • 5.4.1 Ballard Fuel Cell Features & Benefits
  • 5.4.2 Ballard Fuel Cell Japanese Residential Cogeneration Program
  • 5.4.3 Ballard Product : Mark1030™
  • 5.4.4 Ballard Improved Reliability
  • 5.4.5 Ballard Bus Fuel Cell
  • 5.4.6 Ballard Power Systems' Second Quarter 2008 Revenue
• 5.5 BASF
  • 5.5.1 BASF / E-TEK
  • 5.5.2 BASF ETEK LT Series 12D MEA for Direct Methanol Fuel Cells.
• 5.6 Ceramic Fuel Cells
  • 5.6.1 Ceramic Fuel Cells Volume Order Secured With Partner Nuon
  • 5.6.2 Ceramic Fuel Cells Customers and Products
  • 5.6.3 Ceramic Fuel Cells Regional Presence
• 5.7 Fuel Cell Components & Integrators
• 5.8 Gore
• 5.9 GrafTech International
• 5.10 Heliocentris Fuel Cells AG
• 5.11 Horizon
  • 5.11.1 Horizon Fuel Cell Technologies Pte Ltd
  • 5.11.2 Horizon Fuel Cell Bicycles
  • 5.11.3 Horizon Fuel Cell Integrated To An Electric Bicycle
  • 5.11.4 Horizon Light Duty Automotive
  • 5.11.5 Horizon Supplying Multi-kW Fuel Cells
• 5.12 ICM Plastics
• 5.13 JMC / Tekion
  • 5.13.1 Tekion Formira Hybrid Configuration
• 5.14 Johnson Matthey
• 5.15 Manhattan Scientifics
  • 5.15.1 Manhattan Scientifics MicroFuel Cell
• 5.16 Masterflex AG
• 5.17 Medis Technologies
  • 5.17.1 Medis Technologies Revenue
  • 5.17.2 Medis Technologies Strategic Partners
  • 5.17.3 Medis Technologies / Cell Kinetics
  • 5.17.4 Medis / Founder Technology Group
  • 5.17.5 Medis / Aspect and Tenzor MA
  • 5.17.6 Medis / Israel Aerospace Industries
  • 5.17.7 Medis Strategy
  • 5.17.8 Medis General Dynamics C4 Systems
  • 5.17.9 Medis Platform Technology Broadens Its Possibilities
• 5.18 Microcell
• 5.19 Millennium Cell Liquidation Plan
  • 5.19.1 Horizon Fuel Cell Technologies and Millennium Cell
  • 5.19.2 Millennium Cell HydroPak™ Positioned As An Emergency Power Product
• 5.20 Mechanical Technology Incorporated (MTI)
  • 5.20.1 MTI MicroFuel Cells
  • 5.20.2 MTI Fourth Quarter And Year End Results
  • 5.20.3 MTI Micro Commercialization In 2009 - Projected Design Freeze In December 2008
  • 5.20.4 Mechanical Technology Incorporated Fourth Quarter Revenues
• 5.21 Neah
• 5.22 PolyFuel
  • 5.22.1 PolyFuel Engineered Membranes
  • 5.22.2 PolyFuel Engineered Membranes
  • 5.22.3 PolyFuel Business, Products and Markets
  • 5.22.4 PolyFuel Ultra-Thin 20-Micron Version Of Its DMFC Membrane
  • 5.22.5 PolyFuel Agreement With Johnson Matthey Fuel Cells Limited,
  • 5.22.2 PolyFuel Comprehensive Loss
  • 5.22.7 PolyFuel Cash Used in Operations
  • 5.22.8 PolyFuel Concentrates Resources On Reference System Design Program
• 5.23 Sanyo / Hoku Scientific
  • 5.23.1 Hoku Scientific Customers
  • 5.23.2 Suntech Purchases Shares of Hoku Scientific
  • 5.23.3 Hoku Fuel Cells
• 5.24 SGL Technologies
  • 5.24.1 SGL Technologies Financials
• 5.25 Smart Fuel Cells (SFC)
  • 5.25.1 Smart Fuel Cells Automotive
  • 5.25.2 Smart Fuel Cells Stationary
  • 5.25.3 Smart Fuel Cells Positioning
  • 5.25.4 SFC Sells 10,000th EFOY Fuel Cell
  • 5.25.5 SFC EFOY Service Station In France.
  • 5.25.6 SFC Financials
  • 5.25.7 SFC Smart Fuel Cell Market and Technology Leader in Mobile Fuel Cells
  • 5.25.8 SFC Fuel Cells In Use All Over The World
  • 5.25.9 Electric Automotive Vehicle Smart Fuel Cell Battery Charger
• 5.26 Solvay
  • 5.26.2 Solvay Financials
• 5.27 Tatung System Technologies
• 5.28 Toshiba
  • 5.28.1 Toshiba America (TAI)
  • 5.28.2 Toshiba Financials
  • 5.28.3 Toshiba Mid Term Business Plan
  • 5.28.2 Toshiba Financials
  • 5.28.5 Toshiba Business Strategy
  • 5.28.6 Toshiba Nuclear Energy Business
  • 5.28.2 Toshiba Investors
  • 5.28.2 Toshiba Partners
• 5.29 UltraCell
  • 5.29.1 BASF Venture Capital / UltraCell
  • 5.29.2 UltraCell Advanced Reformed Methanol Micro Fuel Cell

List of Tables and Figures

MICRO FUEL CELL EXECUTIVE SUMMARY

• Table ES-1
• Micro Fuel Cell Market Driving Forces
• Figure ES-2
• Worldwide Micro Fuel Cell Market Shares, First Three Quarters 2008
• Figure ES-3
• Worldwide Micro Fuel Cell Market Forecasts, Dollars, 2009-2015

MICRO FUEL CELL MARKET DESCRIPTION AND MARKET DYNAMICS

• Table 1-1
• Fuel Cell Efficiency
• Figure 1-2
• Direct Methanol Fuel Cell
• Table 1-3
• Portable Power Market Strategy
• Table 1-4
• Micro Fuel Cell Product Benefits
• Table 1-4 (Continued)
• Micro Fuel Cell Product Benefits
• Table 1-5
• Military Micro Fuel Cell Target Markets
• Table 1-6
• Micro Fuel Cells Military Positioning
• Table 1-7
• Micro Fuel Cell Portable Medical Equipment Demand Parameters
• Table 1-8
• Micro Fuel Cell Consumer Electronics Portable Power Source Target Market

MICRO FUEL CELL SHARES AND MARKET FORECASTS

• Table 2-1
• Micro Fuel Cell Market Driving Forces
• Table 2-2
• Micro Fuel Cell Advantages
• Table 2-3
• Market Aspects For Micro Fuel Cells
• Table 2-4
• Micro Fuel Cell Technology Issues
• Table 2-5
• Micro Fuel Cell Market Issues
• Table 2-5 (Continued)
• Micro Fuel Cell Market Issues
• Figure 2-6
• Worldwide Micro Fuel Cell Market Shares, First Three Quarters 2008
• Table 2-7
• Worldwide Micro Fuel Cell Market Shares, First Three Quarters 2008
• Table 2-8
• Toshiba Handheld Fuel-Cell Technology Specifications
• Figure 2-9
• PolyFuel Competitive Positioning
• Figure 2-10
• Worldwide Micro Fuel Cell Market Forecasts, Dollars, 2009-2015
• Figure 2-11
• Worldwide Micro Fuel Cell Device Market Forecasts, Dollars, 2009-2015
• Figure 2-12
• Worldwide Micro Fuel Cell Devices Market Forecasts, Units, 2009-2015
• Figure 2-13
• Worldwide Micro Fuel Cell Cartridge Market Forecasts, Dollars, 2009-2015
• Figure 2-14
• Worldwide Micro Fuel Cell Cartridge Market Forecasts, Units, 2009-2015
• Table 2-15
• Worldwide Micro Fuel Cell Cartridge Market Forecasts, Units and Dollars, 2009-2015
• Table 2-16
• Factors Driving Mobile Handsets To Require Increasing Amounts Of Power Consumption

MICRO FUEL CELL PRODUCT POSITIONING

• Figure 3-1
• Toshiba Direct Methanol Fuel Cell Technology
• Figure 3-2
• Toshiba DMFC-Powered Audio Players
• Figure 3-3
• Samsung Hydrogen Gas Block Diagram
• Figure 3-4
• Hydrogen Fuel Cell Patent From Samsung
• Figure 3-5
• Samsung Multi Layered Hydrogen Fuel Cell
• Table 3-6
• Smart EFOY Fuel Cell Ratings
• Table 3-7
• Smart EFOY Fuel Cell Features
• Figure 3-8
• Technical Data Of Smart Fuel Cell EFOY
• Figure 3-9
• Smart Fuel Cell EFOY Cartridges
• Figure 3-10
• UltraCell XX25™ Fuel Cell Powering A Field Repeater
• Table 3-11
• UltraCell' s XX25 communication functions
• Figure 3-12
• UltraCell System Integrated With A Multi-Unit Battery Charger (MUC)
• Figure 3-13
• UltraCell Multi-Unit Battery Charger System Runtime
• Table 3-14
• Collaboration Off Grid Power Solution
• Table 3-15
• UltraCell XX25™ Fuel Cell Powering A Field Repeater
• Figure 3-16
• MicroCell Sand Test
• Figure 3-17
• UltraCell Military Applications
• Table 3-18
• UltraCell XX25 Applications
• Figure 3-19
• UltraCEll Mobile Portable Fuel Cell
• Table 3-20
• Manhattan Scientifics Metallicum NanoTitanium
• Figure 3-21
• Manhattan Scientifics MicroFuel Cell
• Table 3-22
• Manhattan Scientifics MicroFuel Cell™ Advantages Of Technology
• Table 3-23
• Medis / General Dynamics Power Pack For Military Use
• Table 3-24
• Medis Micro Fuel Cell Competitive Advantages
• Table 3-24 (Continued)
• Medis Micro Fuel Cell Competitive Advantages
• Table 3-25
• Medis 24/7 Power Pack Device Charging
• Table 3-26
• Medis 24-7 Power Pack Benefits
• Table 3-27
• MTI Micro MobionR Portable Power Applications
• Table 3-28
• MTI Micro External MobionR Power Sources
• Figure 3-29
• NeoSolar Seoul, Korea -- Dr. James Y. Yu Holding A MobionR Chip And A Wibrain Ultra Mobile PC
• Figure 3-30
• MTI Micro' s MobionR Chips
• Table 3-31
• MTI Micro Performance
• Table 3-32
• MTI MobionR Advantages
• Figure 3-33
• CEO of MTI Micro Fuel Cell Technology
• Table 3-34
• Tekion Technology Competitive Advantage
• Table 3-35
• Tekion Technology Positioning
• Figure 3-36
• Tekion Fuel Cell
• Figure 3-37
• Tekion Power And Energy Characteristics Of Formira™ Fuel Versus Methanol
• Figure 3-38
• NEC Micro Fuel Cell
• Figure 3-39
• NEC Fuel-Cells Flask Phone
• Figure 3-40
• NEC Fuel Cells and Catalysts
• Figure 3-41
• Sony Micro Fuel Cell System
• Figure 3-42
• Angstrom' s Micro Hydrogen™ Systems
• Table 3-43
• Angstrom Thin Film Fuel Cell Features
• Table 3-43 (Continued)
• Angstrom Thin Film Fuel Cell Features
• Table 3-44
• Selected Angstrom Micro Fuel Cell Lights
• Table 3-45
• Selected Angstrom Micro Fuel Cell Initiatives
• Table 3-45 (Continued)
• Selected Angstrom Micro Fuel Cell Initiatives
• Table 3-46
• Angstrom Micro Hydrogen Products
• Figure 3-47
• Angstrom' s Micro Hydrogen™ Systems Components
• Table 3-48
• Angstrom' s Micro Hydrogen™ Systems Components
• Figure 3-49
• Neah Power Systems Military Packs
• Figure 3-50
• Neah Power Systems Mobile PC Uses
• Figure 3-51
• Neah Power Systems First Responder Uses
• Figure 3-52
• Neah Power Systems Logistics Uses
• Figure 3-53
• Neah Solution Silicon-Based Architecture
• Figure 3-54
• Neah Power Systems Comparative Size Silicon vs. Polymer
• Figure 3-55
• Neah Power Systems Honeycomb and Catalyst
• Figure 3-56
• Neah Power Fuel Cell Prototype Components
• Figure 3-57
• Neah Power Military Fuel Cells
• Figure 3-58
• Neah Power Systems
• Figure 3-59
• Neah Power Systems Basic Chemical Flows in Silicon Based Porous Electrode
• Figure 3-60
• Neah Power Systems Manufacturing Infrastructure
• Figure 3-61
• Neah Power Systems Power Density
• Table 3-62
• Masterflex Development Focus
• Table 3-63
• Masterflex Development Positioning
• Figure 3-64
• Smart Fuel Cell

MICRO FUEL CELL TECHNOLOGY

• Figure 4-1
• Comparison of PEM Based Silicon Bed DMFC
• Figure 4-2
• Neah Military Fuel Cell Reduces Weight
• Figure 4-3
• Neah Fuel and Electrolyte
• Figure 4-4
• Nanowire Battery Images
• Figure 4-5
• Neah Solution Silicon-Based Architecture
• Figure 4-6
• UltraCell PEM Fuel Cell Functioning
• Figure 4-7
• SigracetR Fuel Cell Components
• Figure 4-8
• PolyFuel System Technology Peak Power Density
• Table 4-9
• Catalyst Layer, Membrane, and MEA Suppliers
• Figure 4-10
• PolyFuel System Architecture
• Figure 4-11
• PolyFuel System Development
• Table 4-12
• Major Developers of Micro Fuel Cells
• Table 4-13
• Micro Fuel Cell Key Portable Units
• Figure 4-14
• Key Auto Fuel Cell Engine Requirements Map Directly To The Membrane
• Table 4-15
• Organizations with Fuel Cell Information
• Table 4-16
• SFC Fuel Cell Advantages

MICRO FUEL CELL COMPANY PROFILES

• Figure 5-1
• Altair Nanotechnologies Specific Energy and Specific Power
• Table 5-2
• Ballard Product Data Residential Cogeneration Fuel Cell Power Module Description
• Table 5-2 (Continued)
• Ballard Product Data Residential Cogeneration Fuel Cell Power Module Description
• Figure 5-3
• BASF Typical Performance of Hydrogen Air Single Cell Test
• Figure 5-4
• BASF ETEK Typical Performance of Methanol Air Single Cell Test
• Table 5-5
• Horizon Strategic Positioning
• Table 5-6
• Horizon Fuel Cell Integrated Commercial Applications
• Figure 5-7
• Johnson Matthey Fuel Cells
• Figure 5-8
• Johnson Matthey Photon Exchange Membrane
• Figure 5-9
• Masterflex AG Hydrogen Based 50-Watt Fuel Cell
• Figure 5-10
• Masterflex AG Hydrogen Fuel Cell Core Business 2008
• Table 5-11
• Masterflex Focus
• Figure 5-12
• Neah Roadmap
• Table 5-13
• PolyFuel Collaboration Progress
• Table 5-14
• PolyFuel Portable Progress
• Figure 5-15
• PolyFuel Competitive Positioning
• Table 5-16
• PolyFuel Progress Toward Commercialization Of Portable Fuel Cells
• Figure 5-17
• Smart Fuel Cell Automotive Battery Charger
• Table 5-18
• BASF Future Business Growth Clusters