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

Published by	WinterGreen Research, Inc.
Published	December, 2008	Product code	78064
Content info	416 PAGES 134 TABLES AND FIGURES
Price	US $ 3300 PDF by E-mail (Single User License) US $ 3300 PDF by E-mail (Single User License) & Hard Copy US $ 6600 PDF by E-mail (Site License)

Introduction
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Worldwide Micro Fuel Cell Market Shares Strategies, and Forecasts, 2009-2015 published by WinterGreen Research, Inc. in December, 2008. This report consists of 416 PAGES 134 TABLES AND FIGURES and the price starts from US $ 3300.

Introduction

Abstract

Micro fuel cells address demand for higher energy density and longer lasting portable power devices. Micro fuel cells provide longer lasting energy sources for digital electronics. Micro fuel cells provide a hybrid storage technology that supports long term reliable portable electronics power. Renewable energy is base source for charging batteries, but micro fuel cell alternative charging is needed to provide power continuity. Batteries are a chemical process, but current devices do not last long enough. Fuel cells are one of several evolving technologies that promise to provide more reliable, longer portable power.

Micro fuel cell component costs continue to be an issue. Micro fuel cells are expected to be an expensive alternative to thin film batteries, providing hybrid technology that is needed for power continuity, but not basic power sources in most cases throughout the forecast period.

Economies of scale do not entirely solve the inherent high costs of high grade metallic catalysts used in micro fuel cells. More catalyst price reductions are needed to make micro fuel cells competitive with thin film batteries. Micro fuel cells are useful in many particular situations.

The direct methanol fuel cell (DMFC) portable power market for notebook computers, mobile phones, and other portable electronic devices is expected to grow significantly. Leading electronics manufacturers and innovative start]up companies are introducing products. Micro fuel cells are anticipated to work in combination with thin film batteries, creating hybrid power systems. Hybrid markets are expected to achieve market growth as the batteries are less expensive than the micro fuel cells. The micro fuel cells are useful for charging thin film batteries.

Micro fuel cell markets are at $75 million at the end of 2008. By 2015, micro fuel cell markets reach $5.59 billion. Another related segment, portable fuel cells used in bicycles and similar large portable devices represent a similar market opportunity. The micro fuel cells represent power for devices that include a range of PC, handset, PDA, and digital device segments in a variety of industry, military, and health care segments.

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