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In the world of micro fuel cell market stocks, strategies and forecasts, 2009-2015
Micro Fuel Cells is a technology hybrid storage that supports long-term reliable power electronic notebook. Renewable energy is the basic source for charging batteries, but the other possibility load of micro fuel cells is needed to ensure a continuous supply. Batteries are a chemical process, but current arrangements are not difficult sufficient. Fuel cells are an evolving technology that promises to provide more reliable, and portable power.
components Costs micro fuel cells continue to be a problem. Micro fuel cells should be an expensive alternative for cells in layers thin, providing Hybrid technology is necessary for the continuity of power, but not the source of staple food in most cases during the period prediction.
Economies of scale do not meet the full costs involved to solve high metal catalysts High quality products used in micro fuel cells. Further reductions in price are necessary catalyst to make micro fuel cells competitive with stacks of thin layers. Micro fuel cells are useful in many situations.
The direct methanol fuel cell (DMFC) power market Portable laptops, mobile phones and other portable electronic devices is expected to increase significantly. Major manufacturers electronics and innovative companies Start] establish products. Micro fuel cells are expected to work in partnership with thin film batteries, the creation of hybrid power systems. It is expected that hybrid markets to achieve market growth as batteries are less expensive than micro fuel cells. Micro fuel cells are useful for loading thin film batteries.
Micro cell markets fuel is 75 million dollars at the end of 2008. In 2015, the micro fuel cell market to reach 5.59 billion dollars. Another segment, the portable fuel cells used in portable devices such as bicycles and large market opportunity are similar. Micro fuel cells represent the power for devices that include a range of PCs, laptops, PDAs, and digital peripheral segments segments in a variety industry, military and medical.
Contents:
SUMMARY OF micro fuel cell
Market Micro Fuel Cells Driving Forces
Market shares of Micro Fuel Cells
Fuel Cell Market Forecast Micro
1. FUEL MICRO Market Description and Market Dynamics
Description of fuel cell 1.1
1.1.1 Efficiency Fuel cells
Electrochemical converter 1.1.2 Fuel Cells – Clean Energy
1.1.3 DMFC fuel cells
1.1.4 Micro Fuel Cell Hours and degradation Energy
1.1.5 Cathode Catalysts
1.1.6 Description of the micro fuel cell
1.2 States United States approved the use some aircraft micro fuel
1.2.1 Opportunities for micro fuel cell products
1.3 Micro Fuel Cell Markets fate
1.3.1 Military as a market for micro fuel cells
1.3.2 Micro Fuel Cell Portable medical equipment
1.3.3 Micro Fuel Cell of laptops market
1.3.4 Consumer Electronics micro fuel cell power source
1.3.5 Source of micro fuel cell laptop
Life 1.3.6 Mobile Fuel Cell
1.3.7 Extended Data requires energy persistent
First Response 1.3.8
1.3.9 Continuous Computing instant recharge
Leisure RV 1.3.10 Micro-fuel cell markets
1.4 Fuel cells and fuel distribution infrastructure
1.5 adopted by the United Nations and related organizations regulations
1.5.1 Fuel cells compared to rechargeable batteries
2. MICRO FUEL CELLS SHARES AND MARKET Market Forecasts
2.1 Market for Fuel Cell Micro drivers
2.1.1 Driving forces for Micro Fuel Cell Products
2.2 The market for micro fuel cells Proceedings
2.2.1 Toshiba Methanol Fuel Cell Micro
Toshiba Standards 2.2.2 Leader
2.2.3 Model Toshiba Fuel Cell Reference
2.2.4 Mechanical Technology Inc. (MTI) MTI fourth quarter and year-end
2.2.5 Products and Markets Smart Fuel Cell
2.2.6 PolyFuel DMFC membrane
PolyFuel Engineering 2.2.7 Membranes
Poli 2.2.8 portable fuel prototype fuel cell
Medis 2.2.9
user Medis 2.2.10 Objectives
2.2.11 Medis 24 / 7 Power Pack
2.3 Forecasts of Market Micro Fuel Cells
2.3.1 Hybrid Technologies
2.3.2 Example of budgets on the size of the market:
2.4 mobile phone subscribers
2.4.1 Market Company combined Wireless
2.5 Micro Fuel Cell prices
2.5.1 Smart Fuel Cell EFOY
2.5.2 cartridges approved fuel cell commercial aircraft
2.5.3 Technology of the fuel cell reduces the weight soldiers carry
2.6 Regional Energy Demand
2.6.1 Leader UK efforts to offset carbon
2.6.2 Germany
2.6.3 Japan
2.6.4 Directorate of Military Applications of Micro Fuel
3. FUEL MICRO PRODUCT DESCRIPTION
3.1 Micro Fuel Cells Power Devices Digital
Toshiba 3.2
3.2.1 Audio Players Toshiba DMFC-Powered
Toshiba 3.2.2 Micro Fuel Cell
3.2.3 Toshiba Methanol Fuel Cell
3.2.4 methanol concentration Toshiba
Samsung 3.3
3.4 Petrol Polished
3.4.1 PolyFuel Cartridges Approved for commercial aircraft of regulatory agencies
3.4.2 Functional prototype PolyFuel In a portable fuel cell PC Power
3.4.3 PolyFuel polymer engineering Nano Fuel Cell Architectures
3.5 of Smart Fuel Cell
3.5.1 Products and markets cell Smart Fuel
3.5.2 Smart Fuel Cell Systems Traffic distance
Smart Projects 3.5.3 Fuel cells
3.5.4 Smart Fuel Cell EFOY cartridges
3.6 C UltraCell XX25
3.6.1 Communication UltraCell XX25
3.6.2 UltraCell XX25 ™ fuel cell power a transponder field
3.6.3 UltraCell XX25 ™ fuel cell used to feed a relay on the ground
3.6.4 UltraCell lightweight portable power sources for military
3.6.5 Validation of the United States Military UltraCell:
UltraCell 3.6.6 altitude test
3.6.7 UltraCell military international programs:
3.6.8 Partnership with Tatung UltraCell Technologies
3.6.9 UltraCell is associated with ABSL
3.6.10 TSTI UltraCell is associated with
Products UltraCell 3.6.11
3.6.12 UltraCell XX25 MiTAC, General Dynamics and Panasonic Homeland Security
3.7 scientists Micro Fuel Cells Manhattan
Manhattan Cell Science ™ 3.7.1 MicroFuel
Medis Technologies 3.8
More 3.8.1 subsidiary of Medis Technologies Energy
3.8.2 Medis Technologies Department Defense Wearable power
3.8.3 of the Medis fuel cell provides 20 watt hours of total energy
3.8.4 Medis fuel cell market Mobile
3.8.5 Pack Medis 24 / 7 Power
3.8.6 Medis / General Dynamics C4 Systems Promote 24 / 7 Power Pack for military use
3.8.7 Medis / General Competitive Edge Dynamics
3.8.8 User Medis final destination
3.8.9 Advantages Medis 24-7 Power Pack
3.9 Mechanical Technology Incorporated (MTI)
3.9.1 Test MTI Micro Fuel Cell Life
3.9.2 MTI Micro / co-develop Mobion ® digital cameras Neosol consumers
MTI Micro Pack 3.9.3 Power Cable without battery
3.9.4 MTI Micro Chip Mobion ®
MTI Mobion Advantage ® 3.9.5
3.9.6 Fuel Cells MTI pocket
Tekion 3.10
Procurement 3.10.1 Power Tekion
3.10.2 Tekion fuel cell on a chip
3.10.3 Will form Tekion
3.10.4 Tekion / formic acid BASF
Cell phones NEC 3.11 Fuel
3.11.1 NEC
3.11.2 Carbon Nanotubes NEC Toshiba fuel cell fuel cell / Laptop Compact CCRB
Sony 3.12 fuel cell system hybrid
3.13 Angstrom Power
3.13.1 Angstrom micro hydrogen ™ Portable Power Systems
Micro hydrogen ™ 3.13.2 for device integration
Angstrom Power 3.13.3 better batteries Performance ™
3.13.4 Advantages Angstrom Micro ™ hydrogen systems
3.13.5 Hydrogen Angstrom Micro Products
Neah Power Systems 3.14
Neah Power Systems 3.14.1 Military
Neah Power Systems Mobile Life 3.14.2
Neah Power Systems 3.14.3 First Responders
Neah Power Systems 3.14.4 Logistics
Neah 3.14.5 Solution Architecture silicon
3.14.6 Power Systems Neah Captured water vapor cartridge
Positioning Neah Power 3.14.7 Military
BIC 3.15
Masterflex 3.16
3.17 Microcell Corporation
Microcell Products 3.17.1
3-118 3.18
3.19 Casio cell fuel cell
3.20 Smart Fuel Cell (SFC) of fuel cell
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) Power Device
SFC 3.20.4 DMFC
4. Micro Technology FUEL CELL
4.1 Significant progress in the development of compact Micro Fuel Cells
Medis 4.2 Micro Fuel Cell Laboratories Underwriters Laboratories (UL)
4.3 Comparison of silicon-based DMFC PEM Hosting
4.4 nanowire battery can cause 10 times the life of the lithium-ion current
4.4.1 In a battery silicon swells by absorbing the lithium atoms
4.4.2 Solution Architecture Neah silicon
Neah 4.4.3 cartridge against vapors of water catchment
4.4.4 Silicon pragmatic and progressive Neah
PEM fuel cells 4.5
Solvay 4.6
Technology SGL 4.7
Sigracet ® 4.7.1 Components of the fuel cell
4.8 PolyFuel membranes designed for fuel cells
4.8.1 fluorocarbon polymer membrane based on Teflon ®
4.8.2 PolyFuel hydrogen membrane
4.9 electrochemical reaction of fuel cell
4.10 cell bodies Fuel Information
4.10.1 Energy Revolution promoted by SFC Smart Fuel Cell
4.11 own silent micro fuel production electricity methanol
4.12 hydrogen storage
4.12.1 Storage of sodium borohydride hydrogen
4.12.2 borohydride hydrogen generation
4.12.3 International Electrotechnical Commission working group on forms
4.13 PolymerElectrolyte membrane
4.14 chemical energy of sodium borohydride
The bacterial enzyme replacement catalysts Platinum 4.15
4.16 Portable Applications
4.16.1 Pack fuel cell
honeycomb membrane PolyFuel 4.16.2
4.16.3 portable electronics fuel cell
4.16.4 Limitation of hydrogen gas marketing or methanol-powered fuel cell
4.16.5 Hitachi Compact DMFC
4.16.6 NEC Compact DMFC
4.16.7 Toshiba DMFC
4.16.8 Fuel Cell Toshiba
5. Company Profiles micro fuel cell
Altair Nanomaterials 5.1
Altair Nanotechnologies Partners 5.1.1
Altair Nanotechnologies 5.1.2 Systems Energy and Power
Altair Nanotechnologies 5.1.3 Performance Materials Division
5.1.4 Altair Nanotechnologies Life Science
5.1.5 Altair Nanotechnology net losses each year
5.1.6 Titania joint venture AlSher Sherwin-Williams
5.1.7 BAE Systems Altair Nanotechnologies
Altair Nanotechnologies 5.1.8 faster recharge and discharge
Life 5.1.9 Altair Nanotechnologies battery more
Altairnano 5.1.10
5.2 Power Angstrom
5.2.1 Angstrom Power Micro Fuel Cell Technology
Asahi Glass 5.3
Finance 5.3.1 Asahi Glass
Asahi Glass Company Strategy 5.3.2
5.3.3 Asahi owners Glass
Ballard 5.4
5.4.1 Characteristics of the Ballard fuel cell and benefits
5.4.2 Ballard fuel cell cogeneration Japanese Program Residential
5.4.3 Ballard product: Mark1030 ™
5.4.4 Improved reliability Ballard
5.4.5 Ballard fuel cell bus
Neighborhood 5.4.6 Ballard Power Systems 2008 Second Income
BASF 5.5
5.5.1 BASF / E-TEK
ETEK 5.5.2 BASF MEA 12D LT series of methanol fuel cells Direct.
5.6 Ceramic Fuel Cells
5.6.1 Order Ceramic Fuel Cells Volume secured with partner Nuon
Customers ceramic 5.6.2 Batteries Fuels and products
Ceramic Fuel Cells 5.6.3 Regional Presence
5.7 Components of the fuel cell and integrators
Gore 5.8
5.9 GrafTech International
5.10 Fuel Cells AG Heliocentris
Horizon 5.11
Horizon Fuel Cell Technologies 5.11.1 Pte Ltd
5.11.2 Horizonte Wheels Fuel Cell
5.11.3 Integrated Horizon Fuel Cell electric bike
Automotive Horizonte Light 5.11.4
5.11.5 Supply of Horizon Fuel Cell Multi-kW
ICM Plastics 5.12
5.13 JMC / Tekion
5.13.1 Will form Tekion hybrid configuration
Johnson Matthey 5.14
Science Manhattan 5.15
5.15.1 Scientists Manhattan MicroFuel Cell
Masterflex AG 5.16
5.17 Medis Technologies
5.17.1 Technology Medis income
Medis Technologies 5.17.2 Strategic Partners
Medis Technologies 5.17.3 cell kinetics /
Medis 5.17.4 / Founder Technology Group
Massachusetts Medis 5.17.5 / Appearance and Tenzor
Medis 5.17.6 / Israel Aerospace Industries
Medis 5.17.7 Strategy
Medis 5.17.8 General Dynamics C4 Systems
Medis technology platform expands the possibilities 5.17.9
Microcell 5.18
5.19 Settlement Plan Millennium Cell
5.19.1 Horizonte cell technologies and fuel cells Millennium the
5.19.2 Millennium Cell ™ HydroPak positioned as a producer of emergency food
5.20 Mechanical Technology Incorporated (MTI)
MTI 5.20.1 MicroFuel Cells
MTI 5.20.2 Results of the fourth quarter and year-end
5.20.3 In 2009 MTI Micro Marketing – Design Freeze expected in December 2008
5.20.4 Mechanical technology incorporated in revenues for the fourth quarter
Neah 5.21
PolyFuel 5.22
5.22.1 PolyFuel membranes Engineering
5.22.2 PolyFuel membranes Engineering
Products PolyFuel 5.22.3 companies and markets
Version 5.22.4 20-micron ultra-thin membrane PolyFuel DMFC
5.22.5 Agreement PolyFuel with Johnson Matthey Fuel Cells Limited
The total loss of PolyFuel 5.22.2
PolyFuel 5.22.7 cash used for operations
PolyFuel 5.22.8 focuses its resources on program design of the reference system
Sanyo 5.23 / 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
SGL Technologies 5.24.1 Finance
5.25 Fuel Cell Smart (SFC)
5.25.1 Smart Fuel Cell Automobile
5.25.2 Stationary Fuel Cells Smart
5.25.3 Smart Fuel Cell positioning
5.25.4 SFC sell 10,000 to EFOY º
5.25.5 Service Station in SFC EFOY France.
5.25.6 Finance SFC
5.25.7 SFC Smart Fuel Cell Technology and Market leader in portable fuel cells
5.25.8 The SFC fuel cells used in the world
5.25.9 Charger Cell Electric Vehicle Gasoline Smart Battery
Solvay 5.26
5.26.2 Solvay Finance
Tatung System Technologies 5.27
Toshiba 5.28
5.28.1 Toshiba America (TAI)
Toshiba 5.28.2 Finance
Duration 5.28.3 business plan through Toshiba
Toshiba 5.28.2 Finance
5.28.5 Corporate Strategy Toshiba
5.28.6 Toshiba Nuclear Energy
Investors Toshiba 5.28.2
5.28.2 Toshiba Partners
UltraCell 5.29
BASF Venture Capital 5.29.1 / UltraCell
5.29.2 Advanced UltraCell reformed methanol micro fuel
List of Tables and Figures
Table ES-1
Market micro battery Fuel Driving Forces
Figure ES-2
Worldwide Micro Fuel Cell Market Stocks
Three First Quarter 2008
Figure ES-3
Cell forecasts market in the world Micro Fuel, dollars
2009-2015
Table 1-1
Efficiency Fuel cells
Figure 1-2
Cell methanol fuel
Table 1-3
Mobile strategy for the grocery
Table 1-4
Micro Product Benefits cells fuel
Table 1-4 (continued)
Benefits of micro fuel cell product
Table 1-5
military markets Micro Fuel Cell Target
Table 1-6
Micro Fuel Cells positioning military
Table 1-7
Micro fuel cells, the portable medical
parameters demand
Table 1-8
Micro Consumer Electronics portable fuel cell
The power market
Table 2-1
Marketplace micro fuel cell driving forces
Table 2-2
Micro fuel cell benefits
Table 2-3
The micro aspects of the market to fuel
Table 2-4
Micro Fuel Cell Technology Issues
Table 2-5
Issues of market micro fuel cells
Table 2-5 (continued)
Issues of market micro fuel cells
Figure 2-6
Shares of the world market for micro fuel cells
First three quarters 2008
Table 2-7
Everyone Micro Fuel Cell Market Stocks
First three quarters 2008
Table 2-8
Hand Cell Toshiba Specification for Fuel-Tech
Figure 2-9
PolyFuel Competitive positioning
Figure 2-10
Micro worldwide market forecasts fuel cell, in dollars,
2009-2015
Figure 2-11
Fuel cell devices in the micro world
Market Forecasts, Dollars, 2009-2015
Figure 2-12
Devices batteries Fuel Worldwide Micro
Market Forecasts, Units,
2009-2015
Figure 2-13
Around the world micro fuel cell cartridge
Market Forecasts, Dollars, 2009-2015
Figure 2-14
Fuel Cells Worldwide Micro Cartridge
Market Forecasts, Units, 2009-2015
Table 2-15
In the world of micro fuel cell cartridge
Market Forecasts, Units and Dollars 2009-2015
Table 2-16
The factors Require Mobile Phones
Increasing amounts of energy
Figure 3-1
Toshiba Direct Methanol Technology Fuel Cells
Figure 3-2
Players Toshiba DMFC power audio
Figure 3-3
Samsung hydrogen gas diagram
Figure 3-4
Patents Hydrogen fuel cells Samsung
Figure 3-5
Samsung Multi layers of hydrogen fuel cells
Table 3-6
EFOY Smart Fuel Cell Reviews
Table 3-7
Characteristics of Smart Fuel Cell EFOY
Figure 3-8
Specifications Of Smart EFOY cells fuel
Figure 3-9
Smart Cartridge EFOY
Figure 3-10
UltraCell XX25 ™ fuel cell power a transponder field
Table 3-11
communication functions UltraCell XX25
Figure 3-12
Integrated with Multi-Unit UltraCell
Battery Charger (MUC)
Figure 3-13
UltraCell Multi-Unit Battery Charger System Runtime
Table 3-14
Collaboration Outside grid solutions
Table 3-15
UltraCell XX25 ™ fuel cell power a transponder field
Figure 3-16
Microcell Test Arena
Figure 3-17
UltraCell Military Applications
Table 3-18
UltraCell XX25 Applications
Figure 3-19
Mobile Ultracell portable fuel cell
Table 3-20
Nano titanium metallicum Science Manhattan
Figure 3-21
Manhattan MicroFuel Cell Science
Table 3-22
Benefits of Cell Science Technology ™ MicroFuel Manhattan
Table 3-23
Medis / Power Pack General Dynamics for military use
Table 3-24
Medis fuel cell micro Competitive Edge
Table 3.24 (continued)
Medis Fuel Cell Micro Competitive Advantage
Table 3-25
Medis 24 / 7 Power device battery charge
Table 3-26
Medis Advantages 24-7 Power Pack
Table 3-27
MTI Micro Mobion ® portable power applications
Table 3-28
MTI Micro ® Power Supplies external Mobion
Figure 3-29
Neosol Seoul, Korea – Dr. James Holding Y. Yu
A Chip And A Mobion ® Wibrain Ultra Mobile PC
Figure 3-30
MTI Mobion ® Micro Chips
Table 3-31
MTI Micro Performance
Table 3-32
MTI Mobion ® Advantages
Figure 3-33
MTI Technology CEO micro cell fuel
Table 3-34
Competitive Edge Technology Tekion
Table 3-35
Positioning Technology Tekion
Figure 3-36
Tekion cells fuel
Figure 3-37
Power and energy characteristics Tekion
Forma ™ methanol fuel from
Figure 3-38
Micro Fuel Cells NEC
Figure 3-39
NEC Fuel Cell Phone bottle
Figure 3-40
Fuel Cells Catalysts and NEC
Figure 3-41
Sony Micro Fuel Cell System
Figure 3-42
Angstrom micro hydrogen ™ systems
Table 3-43
Angstrom Thin Film Characteristics of Fuel Cells
Table 3-43 (continued)
Angstrom Thin Film Characteristics of Fuel Cells
Table 3-44
Angstrom Lighting Some micro fuel cell
Table 3-45
Selected Angstrom Micro Fuel Cell Initiatives
Table 3-45 (continued)
Selected Angstrom Micro Fuel Cell Initiatives
Table 3-46
Angstrom Hydrogen Micro Products
Figure 3-47
Components Angstrom Micro Hydrogen Systems ™
Table 3-48
Angstrom Micro Hydrogen ™ Systems Components
Figure 3-49
Neah Power Systems Military Packs
Figure 3-50
Neah Power Systems using Mobile PC
Figure 3-51
Use the First Responder Systems Central Neah
Figure 3-52
Neah Power Systems Logistics Applications
Figure 3-53
Neah architecture solution based on silicon
Figure 3-54
Neah Power Systems Silicon size relative to Polymer
Figure 3-55
Neah Power Systems and Catalyst honeycomb
Figure 3-56
Neah Power Components Fuel Cell Prototype
Figure 3-57
Neah Power fuel cell military
Figure 3-58
Neah Power Systems
Figure 3-59
Neah Power Systems Chemistry basisof
porous silicon electrode
Figure 3-60
Neah Power Systems Manufacturing Infrastructure
Figure 3-61
Density Power Neah Power Systems
Table 3-62
development approach Masterflex
Table 3-63
Development of positioning Masterflex
Figure 3-64
Smart Fuel Cells
Figure 4-1
Comparison of silicon-based DMFC PEM Housing
Figure 4-2
Neah fuel cell reduces the weight of military
Figure 4-3
Neah fuel and electrolytes
Figure 4-4
Images nanowires Battery
Figure 4-5
Neah architecture solution based on silicon
Figure 4-6
EMP UltraCell Fuel cell operation
Figure 4-7
Sigracet ® fuel cell components
Figure 4-8
Technology PolyFuel system density power
Table 4-9
Catalyst layer, membrane, and a Master of suppliers
Figure 4-10
System Architecture PolyFuel
Figure 4-11
Development System PolyFuel
Table 4-12
The main developers of Micro Fuel Cells
Table 4-13
Micro fuel cell laptop Key units
Figure 4-14
Major Auto Motor Fuel Cell Requirements map directly
A membrane
Table 4-15
Fuel Cell Organizations Information
Table 4-16
Advantages of SFC fuel cells
Figure 5-1
Altair Nanotechnologies energy specific energy and specific
Table 5-2
Product Details Ballard residential cogeneration
Additional fuel cell module
Table 5-2 (continued)
Product Details Ballard Residential Cogeneration
Description of Fuel Cell Module
Figure 5-3
BASF Performance Air type of individual test hydrogen cell
Figure 5-4
BASF ETEK typical performance
airtight methanol Single Cell
Table 5-5
Horizon Strategic Positioning
Table 5-6
Horizon Fuel Cell integrated business applications
Figure 5-7
Fuel cells Johnson Matthey
Figure 5-8
Johnson photon exchange membrane Matthey
Figure 5-9
Masterflex AG cellular base fuel hydrogen 50 Watt
Figure 5-10
Masterflex AG cells Core Business hydrogen fuel 2008
Table 5-11
Masterflex approach
Figure 5-12
Neah sheet Road
Table 5-13
PolyFuel progress Collaboration
Table 5-14
Portable progress PolyFuel
Figure 5-15
PolyFuel Competitive positioning
Table 5-16
PolyFuel progress toward commercialization
portable fuel cell
Table 5-16 (continued)
PolyFuel progress toward commercialization
portable fuel cell
Figure 5-17
Charger fuel cell car smart battery
Table 5-18
BASF Future Business growth poles
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