http://www.maniacsolutions.com/marketing-roadmap-template/
Nanotechnology Worldwide portable fuel cell market operations, strategies and Forecasts, 2009-2015-Aarkstore Company
The portable fuel cells being prepared for significant growth in units smaller and cheaper fuels. According to Susan Eustis, author of the study, "Economies of scale not fully meet the high costs involved in solving high-grade metal catalysts used in fuel cells micro. Nanotechnology is poised to provide new ways to create advanced materials that can be used to implement portable fuel cells. More price reductions are necessary catalyst to make portable fuel cells with batteries of thin-film competition. Portable fuel cells are useful in cities bikes for electronic energy and advanced multimedia that attracts a lot of energy. "
Over developing world, where energy and environmental problems abound, still gets around two wheels. 2% of the population of 1.5 million dollars in China has a car. Cities have begun banning the use of 2-stroke Motorcycle Engine for LPG scooters and electric bicycles.
19 million bicycles Power was purchased in 2008. The trend is expected to continue. As more people need to travel farther each year, assuming a fuel cell role in short-distance travel. As economies evolve, fuel cells provide a role for green energy. Purchase energy constraints and pollution air issues increase the need for low-cost, zero carbon transport solutions.
Portable fuel cell vendors are strategically positioned to develop and implement solutions. Technology costs continue to decline. Fuel practical solutions continue to evolve. Experiments with mobile products fuel cells are beginning to take place in various parts of the world.
Nanotechnology is used to implement a variety of portable solutions fuel cells. Many different techniques of nanotechnology are being explored. One is of a silicon structure, about 400 microns depth, much thicker than the thickness of 10 microns of a traditional cell membrane of a PEM. This design is expected to lead to a reaction zone surface much larger, allowing high power in a compact format.
A squeeze more power into smaller volumes, researchers have begun to build fuel cells in the diffuse boundary of nanotechnology. Silicon etching, evaporation, and other processes taken from chip manufacturers have used to create tight channel matrices to guide the flow of fuel through the cell.
The point is to pack a catalytic surface in a slim volume. This approach is developing, beyond the aspects of two dimensions to obtain a larger surface area. Methods to improve the performance of fuel cells on the nanoscale.
Tridimensional electrocatalysts improve existing structures that have traditionally been expressed on a flat surface. Two catalysts are hundreds of microamps dimensions per square centimeter, while three-dimensional surface catalysts to increase by several orders of magnitude.
fuel channels are being developed in ready-made in a commonly available porous alumina filters costing only about $ 1. The filter is full of pure, cylindrical holes 200 nanometers diameter, and was initially used in laboratories as a template for the growth of nanowires.
Nanowires can be grown in an alloy platinum-copper and dissolve copper by soaking the filter electrodes creates nitric acid. Instead of a solid nanowire, each hole is left with a porous platinum electrode. Partially dissolved cables are structurally complex, as befits its random nature, and have a huge area for its size.
The size the market for portable fuel cell power in $ 80,100,000 in 2008 is estimated to reach $ 4,400,000,000 dollars in 2015. the existing markets are mobile homes and remote PC. The strong growth comes as hybrid fuel cell to evolve to support film batteries thin. The fuel will come from renewable energy sources.
Table of Contents:
PORTABLE NANOTECHNOLOGY FUEL CELL MARKET SHARES AND market forecasts
Portable Fuel Cell Markets
Nanotechnology Solutions Implements Laptop Fuel Cell
Market Portable Fuel Cells Driving Forces
The availability of infrastructure for fuel cell
Shares of portable fuel cell market
The estimates of portable fuel cell market
1. Market Overview and market dynamics
1.1 Nanotechnology for Fuel Cells
1.1.1 Nanotechnology channel matrices
1.1.2 platinum nanoparticles
1.1.3 Fuel Cell Nanotechnology Applications
1.1.4 Alternative Solutions Catalyst
1.1.5 Nano Metals and Alloys
1.2 nanoscale hydrogen Research
1.2.1 The hydrogen fuel cells
1.3 Fuel Cell Power Portable Digital Devices
1.3.1 Size of prototype laptop fuel cell
Description of the fuel cell 01.04
1.4.1 Efficiency of fuel cell
1.4.2 Electrochemical Fuel Cell Converter – Clean Energy
1.4.3 DMFC fuel cells
1.4.4 DMFC fuel cells small
1.4.5 Hour Portable Fuel Cell Operation and energy degradation
1.4.6 Cathode Catalysts
1.4.7 Fuel Cell Micro Description
1.5 The United States has approved the use of certain fuel cell Micro planes
1.5.1 Market Opportunities for Micro Fuel Cell Products
1.5.2 Military as a Micro Fuel Cell Target Market
1.5.3 Fuel Cell laptop portable medical equipment
1.5.4 Fuel Cells Laptop portable high-end PC market
1.5.5 Portable Consumer Electronics Fuel Cell Portable Power Source
1.5.6 Cell Laptop Fuel Power Source
Mobile Life 1.5.7 Fuel Cell Power
Required Information 1.5.8 Persistent Extended power
First Response 1.5.9
05/01/1910 Continuous Computing instant recharge
01/05/1911 RV recreational Micro Fuel Cell Markets
1.6 Fuel Cells and Infrastructure Fuel Distribution
1.7 approval of the United Nations and Related Organizations regulation
1.7.1 Cells Fuel comparison with rechargeable batteries
2. PORTABLE FUEL CELL MARKET SHARES AND market forecasts
2.1 Fuel Portable Cell Markets
2.1.1 The availability of infrastructure for fuel cell
2.2 The shares of the portable fuel cell market
2.2.1 Toshiba Portege M200 Tablet PC Fuel Cells
2.2.2 Smart Fuel Cell and Markets
Horizon 2.2.3
Angstrom 2.2.4
2.3 The forecasts of portable fuel cell market
Light 2.3.1 Portable fuel cell device market forecast
2.3.2 Light Duty Portable Fuel Cell Market Forecasts cartridges
2.4 Mobile High End PC / multimedia devices
2.4.1 Handset Company Markets Wireless
Lightweight portable 2.5 Fuel Cell Prices
2.5.1 Smart Fuel Cell EFOY
2.5.2 The cell cartridges approved fuel for commercial aircraft
2.5.3 Technology of the fuel cell reduces the weight soldiers carry
2.6 Regional Energy Demand
2.6.1 UK leader in efforts to offset carbon
2.6.2 Germany
2.6.3 Japan
2.6.4 Military Applications of portable fuel cells Light Duty
3. FUEL CELL FOR PORTABLE PRODUCT DESCRIPTION
3.1 of Smart Fuel Cell
3.1.1 Products and markets intelligent Fuel Cell
3.1.2 Fuel Cell Systems remote intelligent traffic
3.1.3 Smart Fuel Cell outdoor operation reliable
3.1.4 Smart Fuel Cell Retail
3.1.5 Smart Fuel Cell EFOY cartridges
Horizon 3.2
3.2.1 Costs of Horizon Fuel Cell
Horizon 3.2.2 Positioning Developing World
Horizon Fuel Cell 3.2.3
3.2.4 Horizon Fuel Cell Technologies / Corgi
3.3 Tablet PC Toshiba Portege M200 Fuel Cells
3.3.1 Toshiba Methanol Fuel Cell for Notebooks
Casio 3.4 Portable fuel cell
3.5 Samsung Multi layers of hydrogen fuel cells
Poli Fuel 3.6
3.6.1 PolyFuel Cartridges Approved for commercial aircraft of the regulatory agencies
PolyFuel 3.6.2 Functional Prototype of a portable fuel cell PC Power Supply
3.7 UltraCell Products
3.7.1 UltraCell XX25 MiTAC, General Dynamics and Safety National Panasonic
MTI Micro 3.8
3.8.1 MTI Micro Mobion ® Portable Power
3.8.2 MTI Micro / Co-Develop Mobion ® Neosol consumer digital devices
MTI Micro Pack 3.8.3 Cable-Free Rechargeable Power
3.8.4 MTI Micro Mobion ® Chip
MTI Mobion Advantage ® 3.8.5
3.8.6 Fuel cells MTI pocket
Tekion 3.9
3.9.1 Tekion hybrid technology, fuel cell combined with advanced Lithium Ion Battery Technology
3.10 Systems Neah Power
3.10.1 Military Neah Power Systems
Neah Power Systems 3.10.2 Mobile Life
Neah Power Systems 3.10.3 First Responders
Neah Power Systems 3.10.4 Logistics
3.10.5 Architecture Neah of silicon-based solutions
3.10.6 Power Systems Water Vapor Neah Captured in cartridge
3.10.7 Military Neah Power Positioning
Masterflex 3.11
Masterflex cargobike 3.11.1
3.11.2 Fuel Cell electric bike Masterflex
3.12 Angstrom micro hydrogen ™ Portable Power Systems
3.12.1 Angstrom Power Micro Hydrogen ™ for device integration
3.12.2 Motorola Mobile Devices Working with Angstrom
3.12.3 International Civil Aviation Organization (ICAO) regulations permit Angstrom power devices to be transported in the passenger cabin of commercial aircraft
Angstrom Power 3.12.4 Impacts runtime rich media devices
Angstrom Micro Power 3.12.5 Hydrogen Fuel Cell Powered Bicycle Lights
3.12.6 Advantages of Angstrom Power Hydrogen Fuel Cell Load
Angstrom Power Storage 3.12.7 hydrogen in metal hydrides
3.12.8 Angstrom fuel cell chemistry
3.12.9 Refueling Angstrom Power
Benefits Angstrom 12/03/1910 Micro hydrogen ™ Systems
03/12/1911 Angstrom Hydrogen Micro Products
4. PORTABLE FUEL CELL TECHNOLOGY
4.1 Significant progress in developing of compact portable fuel cell
4.2 Laboratories Medis Portable Fuel Cell Underwriters Laboratories (UL)
4.3 Comparison of PEM silicon Bed based DMFC
4.4 nanowire battery can hold 10 times the battery life of existing lithium ion
4.4.1 In a battery silicon swells as it absorbs the lithium atoms
Neah 4.4.2 Architecture of the solution based on silicon
Neah 4.4.3 capture water vapor cartridge
4.4.4 Pragmatics and scalable Silicon Neah
PEM fuel cells 4.5
Solvay 4.6
4.7 SGL Technologies
Sigracet ® 4.7.1 Components of fuel cell
4.8 membranes PolyFuel Designed for fuel cells
4.8.1 Membrane-based fluorocarbon polymer Teflon ®
4.8.2 PolyFuel hydrogen membrane
4.9 Cells Fuel electrochemical reaction
4.10 organizations Fuel Cell Information
4.10.1 SFC fuel driven energy revolution Cell elegant
4.11 clean and quiet of the portable fuel cell power generation by methanol
4.12 Storing Hydrogen
4.12.1 Storing hydrogen sodium borohydride
4.12.2 borohydride hydrogen generation
4.12.3 Forms Group International Electrotechnical Commission Working
4.13 PolymerElectrolyte membrane
4.14 sodium borohydride chemical energy
4.15 Replacing the bacterial enzyme catalysts The Platinum
4.16 portable applications
4.16.1 Fuel Cell Power Pack
Honeycomb membrane PolyFuel 4.16.2
4.16.3 portable electronic devices Fuel Cell
4.16.4 Limitation of hydrogen gas marketing or methanol powered fuel cells
4.16.5 Hitachi Compact DMFC
4.16.6 NEC Compact DMFC
Toshiba's DMFC 4.16.7
4.16.8 Toshiba Fuel Cell
5. COMPANY PROFILES FOR PORTABLE FUEL CELLS
5.1 Nanomaterials Altair
Altair Nanotechnologies Partners 5.1.1
Altair Nanotechnology 5.1.2 Energy and Power Systems
Altair Nanotechnology 5.1.3 Performance Division Materials
5.1.4 Altair Nanotechnology Life Sciences
5.1.5 Altair Nanotechnology net losses in each fiscal year
5.1.6 Common Titania AlSher At the risk of Sherwin-Williams
5.1.7 BAE Systems Altair Nanotechnology
Altair Nanotechnologies 5.1.8 faster recharge and discharge
5.1.9 Nanotechnologies Altair longer battery life
Altairnano 05/01/1910
5.2 Angstrom Power
Angstrom Power 5.2.1 portable fuel cell technology
Asahi Glass 5.3
Finance 5.3.1 Asahi Glass
Asahi Glass 5.3.2 Business Strategy
Asahi Glass 5.3.3 Owners
Ballard 5.4
5.4.1 Features of Ballard fuel cells and Benefits
5.4.2 Japanese Ballard Fuel Cell Residential Cogeneration Programme
5.4.3 Product Ballard: Mark1030 ™
5.4.4 Improved reliability Ballard
5.4.5 Ballard Fuel Cell Bus
5.4.6 Neighborhood Ballard Power Systems 2008 Second Income
BASF 5.5
5.5.1 BASF / E-TEK
ETEK 5.5.2 BASF MEA 12D LT series for methanol fuel cells directly.
5.6 Ceramic Fuel Cells
5.6.1 Fuel Cells Order ceramic volume insured with partners Nuon
5.6.2 Customers Ceramic Fuel Cells and Products
5.6.3 Ceramic Fuel Cells regional presence
5.7 Components of fuel cell and integrators
Gore 5.8
5.9 GrafTech International
Fuel Cells AG Heliocentris 5.10
Horizon 5.11
5.11.1 Horizon Fuel Cell Technologies Pte Ltd
5.11.2 Horizon Fuel Cell Bikes
5.11.3 Cell horizon Integrated fuel for an electric bike
Automotive Light Horizonte 5.11.4
5.11.5 The provision of Horizon Fuel Cell Multi-kW
Plastic 5.12 ICM
5.13 JMC / Tekion
Hybrid configuration Tekion Formira 5.13.1
5.14 Johnson Matthey
Science Manhattan 5.15
Scientists 5.15.1 Cell PortableFuel Manhattan
Masterflex AG 5.16
5.17 Medis Technologies
Medis Technologies 5.17.1 Income
Medis Technologies 5.17.2 Strategic Partners
Medis Technologies 5.17.3 / Cell Kinetics
Medis 5.17.4 / Founder Technology Group
Medis 5.17.5 / Aspect and MA Tenzor
Medis 5.17.6 / Israel Aerospace Industries
Medis 5.17.7 Strategy
5.17.8 General Dynamics C4 Systems Medis
Medis 5.17.9 Expands Technology Platform possibilities
5.18 Portablecell
5.19 Millennium Cell Settlement Plan
5.19.1 Horizon Fuel Cell Technologies and cell Millennium
5.19.2 Millennium Cell ™ HydroPak product positioned as an emergency power
5.20 Mechanical Technology Incorporated (MTI)
MTI 5.20.1 PortableFuel cells
MTI 5.20.2 Fourth Quarter and Year End Results
MTI Portable 5.20.3 Marketing in 2009 – Screening of freezing In December 2008 Design
5.20.4 Mechanical Technology Incorporated in the fourth-quarter revenue
Neah 5.21
PolyFuel 5.22
5.22.1 Membranes PolyFuel Engineering
5.22.2 PolyFuel membranes Engineering
PolyFuel 5.22.3 Business, Products and Markets
PolyFuel 5.22.4 ultra-slim 20-Portable Version its DMFC membrane
5.22.5 PolyFuel Agreement With Johnson Matthey Fuel Cells Limited
Complete loss of PolyFuel 5.22.2
PolyFuel 5.22.7 cash used operations
PolyFuel 5.22.8 concentrates its resources in the Program Design Reference System
Sanyo 5.23 / Hoku Scientific
5.23.1 Hoku Customers Scientific
5.23.2 Purchases of Suntech shares of Hoku Scientific
5.23.3 Hoku Fuel Cells
5.24 Technologies for SGL
5.24.1 Technology SGL Finance
5.25 Smart Fuel Cell (SFC)
5.25.1 Smart Fuel Cell Automotive
5.25.2 Smart Fuel Cell Stationary
5.25.3 Fuel cells intelligent positioning
5.25.4 SFC sell 10,000 fuel cell EFOY º
5.25.5 Service Station SFC EFOY in France.
SFC 5.25.6 Finance
SFC Smart Fuel 5.25.7 market and technology leader in cell phone fuel cell
5.25.8 Cells SFC fuel in use worldwide
5.25.9 intelligent electric vehicles Automotive Fuel Cell Battery Charger
Solvay 5.26
5.26.2 Finance Solvay
Tatung System Technologies 5.27
Toshiba 5.28
5.28.1 Toshiba America (TAI)
Toshiba 5.28.2 Finance
5.28.3 Toshiba Business Plan Medium
Toshiba 5.28.2 Finance
5.28.5 Toshiba Business Strategy
5.28.6 Toshiba Nuclear Energy
5.28.2 Toshiba Investors
5.28.2 Partners Toshiba
UltraCell 5.29
5.29.1 BASF Venture Capital / UltraCell
5.29.2 Advanced UltraCell Reformed methanol fuel cell laptop
List Tables and Figures
Figure ES-1
Nanotechnology based on silicon Architecture
Table ES-2
Market Portable Fuel Cells Driving Forces
Table ES-2 (Continued)
Market Portable Fuel Cell Driving Forces
Figure ES-3
Worldwide portable fuel cell market shares
First three quarters 2008
Figure ES-4
Auto vs Bicycle Horizonte portable cell Fuel Carbon Offset Power
Figure ES-5
Worldwide Portable Fuel Cell Market Forecast, 2009-2015
Table 1-1
The effectiveness Fuel Cell
Figure 1-2
Direct Methanol Fuel Cells
Table 1-3
Portable Power Market Strategy
Table 1-4
Product Benefits Fuel Cell Phones
Table 1-4 (Continued)
Product Benefits Fuel Cell Phones
Table 1-5
Military target markets Micro Fuel Cell
Table 1-6
Portable fuel cells for military positioning
Table 1-7
Portable Fuel Cell Portable Medical Equipment
Demand parameters
Table 1-8
Portable Fuel Cell Consumer Portable Electronics
Target Market Power Source
Table 2-1
Market Portable Fuel Cells Driving Forces
Table 2-1 (Continued)
Market Portable Fuel Cells Driving Forces
Table 2-2
Market aspects of Micro Fuel Cells
Table 2-3
Micro Fuel Cell Technology Issues
Table 2-4
Issues portable fuel cell market
Table 2-4 (Continued)
Issues of Micro Fuel Cell Market
Figure 2-5
Worldwide portable fuel cell market shares
First three quarters 2008
Figure 2-6
Worldwide portable fuel cell market shares
First three quarters 2008
Figure 2-7
Horizon Bicycle Small Systems Portable Fuel Cell Power
Figure 2-8
Bike Horizonte small fuel cell laptop alternative energy system
Figure 2-9
Portable Horizon Fuel Cell bicycle in traffic
Figure 2-10
Bicycle Horizonte portable indoor tricycle
Fuel Cell Systems
Figure 2-11
Bicycle Horizonte vs Auto Power Laptop Fuel Cell
Compensation Carbon
Figure 2-12
World Market for portable fuel cell
Forecasts, 2009-2015
Figure 2-13
Worldwide Cell portable fuel market
Forecasts, Dollars, 2009-2015
Figure 2-14
World Forecasts of portable fuel cell Market, Units,
2009-2015
Figure 2-15
A whole world of portable fuel cell cartridge
Market Forecasts, Dollars, 2009-2015
Figure 2-16
Worldwide cartridges portable fuel cell market
Forecasts, Units, 2009-2015
Table 2-17
Driving factors for mobile phones require increasing
Quantities of energy consumption
Table 3-1
Smart Cells EFOY ratings Fuel
Table 3-2
Characteristics of Smart Fuel Cell EFOY
Figure 3-3
EFOY Technical Data Smart Fuel Cell
Table 3-4
Applications Smart Fuel Cell
Figure 3-5
Smart Fuel Cell EFOY cartridges
Table 3-6
Positioning Horizon Fuel Cell
Figure 3-7
Horizon Fuel Cell Applications
Figure 3-8
Horizon Fuel Cell and very small vehicles
Figure 3-9
Horizon Fuel Cell Bicycle
Figure 3-10
Horizon Fuel Cell Bicycle Bar version
Figure 3-11
Horizon Micro Fuel Cell Bicycle
Table 3-12
Hydrogen Economy on Intelligent Vehicle
Figure 3-13
Bicycle Horizon Fuel Cell / Carbon Offset Comparison Automotive
Figure 3-14
Casio portable fuel cell
Figure 3-15
Samsung Multi layers of hydrogen fuel cells
Figure 3-16
Microcell Test arena
Figure 3-17
UltraCell Military Applications
Table 3-18
UltraCell XX25 Applications
Table 3-19
UltraCell XX25 Powered remote surveillance equipment
Figure 3-20
The cell phone Ultracell portable fuel
Table 3-21
MTI Micro ® Mobion portable power applications
Table 3-22
MTI Micro ® External Power Sources Mobion
Figure 3-23
Neosol Seoul, Korea – Dr. James Y. A celebration Yu
Mobion ® chip and a Wibrain Ultra Mobile PC
Figure 3-24
MTI Micro Chips Mobion ®
Table 3-25
MTI Micro Performance
Table 3-26
MTI Mobion ® Advantages
Figure 3-27
MTI Fuel Cells pocket
Figure 3-28
Neah Power Systems Military Packs
Figure 3-29
Neah Power Systems using Mobile PC
Figure 3-30
Neah Power Systems Responder First Use
Figure 3-31
Neah Power Systems Logistics Applications
Figure 3-32
Neah silicon-based Solution Architecture
Figure 3-33
Power Systems Neah silicon size compared to Polymer
Figure 3-34
Neah Power Systems and Catalyst honeycomb
Figure 3-35
Neah energy Prototype Fuel Cell Components
Figure 3-36
Neah Fuel Cell Military Power
Figure 3-37
Neah Power Systems
Figure 3-38
Neah Power Systems Basic Flow Chemistry
Porous silicon electrode
Figure 3-39
Neah Power Systems Manufacturing Infrastructure
Figure 3-40
Neah Power Systems Power Density
Table 3-41
Masterflex development approach
Table 3-42
Masterflex Positioning Development
Figure 3-43
Masterflex Feeding box
Table 3-44
Masterflex Features
Figure 3-45
Masterflex cargobike
Table 3-46
Masterflex Advantages of Fuel Cells:
Figure 3-47
Feul Cell Masterflex cargo bikes
Figure 3-48
FC-Pedelec – With Electric cell bicycle Integrated PEM fuel
Table 3-49
Masterflex Fuel Cell Features
Table 3-50
Angstrom Micro hydrogen ™ Portable Power Advantages
Figure 3-51
Angstrom Power Micro Hydrogen ™ for device integration
Table 3-52
Angstrom Features
Table 3-52 (Continued)
Angstrom Features
Table 3-53
Hydrogen Angstrom Micro Products
Figure 3-54
Micro Hydrogen ™ Angstrom Systems Components
Table 3-55
Micro Hydrogen ™ Angstrom Systems Components
Figure 4-1
Comparison of silicon-based PEM DMFC Accommodation
Figure 4-2
Neah fuel cell reduces the weight Military
Figure 4-3
Neah fuel and electrolytes
Figure 4-4
Images of the battery Nanowires
Figure 4-5
Architecture Neah silicon-based solution
Figure 4-6
UltraCell PEM Fuel Cell Operation
Figure 4-7
Sigracet ® Fuel Cell Components
Figure 4-8
PolyFuel technology system power density
Table 4-9
Catalyst layer, membrane, and MA Related Searches
Figure 4-10
PolyFuel System Architecture
Figure 4-11
PolyFuel Development System
Table 4-12
Developers major cell portable fuel
Table 4-13
Portable Fuel Cell laptop key units
Figure 4-14
Key Auto Fuel Cell Engine Requirements
Map directly on the membrane
Table 4-15
Organizations with fuel cells Information
Table 4-16
Advantages SFC Fuel Cell
Figure 5-1
Altair Nanotechnologies specific energy and specific energy
Table 5-2
Ballard Product Details Residential Cogeneration
Fuel Cell Module Description
Table 5-2 (Continued)
Product Details Ballard Residential Cogeneration
Fuel Cell Power Module Description
Figure 5-3
BASF Performance Air type individual test Hydrogen Cell
Figure 5-4
BASF ETEK typical performance
Methanol airtight Single Cell
Table 5-5
Horizon Strategic Positioning
Table 5-6
Horizon Fuel Cell integrated business applications
Figure 5-7
Johnson Matthey Fuel Cells
Figure 5-8
Johnson Matthey membrane photon exchange
Figure 5-9
Masterflex AG Hydrogen base 50-Watt fuel cell
Figure 5-10
Masterflex Fuel Cell AG Core hydrogen Business 2008
Table 5-11
Masterflex Approach
Figure 5-12
Neah Roadmap
Table 5-13
Collaboration Progress PolyFuel
Table 5-14
Portable PolyFuel Progress
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
Fuel Cell Automotive Intelligent Battery Charger
Table 5-18
BASF Future Business Growth Clusters
For further information please contact:
About the Author
Minal H
SEO
vinod.minal@gmail.com
http://www.aarkstore.com
Email Marketing ROCKS! Learn Free Tactics Here