Fuel Cell Catalyst Market Opportunities, Strategies, and Forecasts, 2007 to 2013

Fuel Cell Catalysts Executive Summary

• Most Cited Catalyst Scientific Research
  • Mostafa A. El-Sayed Is The Undisputed Leader In Catalyst Scientific Research
  • Susie Eustis Describes The Electromagnetic Effect Of Surface Oscillation On Nanoparticles
  • Characteristics Of Nanoparticles Do Not Scale Linearly With Size And Are A Function OF Electron Behavior
• Fuel Cell Catalysts Market Driving Forces
• Worldwide Fuel Cell Catalysts Market Shares
  • Johnson Matthey
  • QuantumSphere
  • QuantumSphere Consistent, Narrow Particle Size Distribution
  • Cabot' s Dynalyst Spray-Based Powder Processing Catalyst Formation Technique
  • Cabot Proprietary Technology Attaches Organic Groups To The Surface Of Carbon Black Particles
• Fuel Cell Catalyst Market Forecasts
• Proper Catalysts, The Water-Shift Reaction

1. Fuel Cell Catalyst Market Description and Market Dynamics

• 1.1 Mostafa A. El-Sayed Most Cited Catalyst Scientific Research
  • 1.1.1 Mostafa A. El-Sayed “Cubic” Colloidal Platinum Nanoparticles 1986
  • 1.1.2 Mostafa A. El-Sayed Is The Undisputed Leader In Catalyst Scientific Research
  • 1.1.3 Susie Eustis Describes Electromagnetic Effect Of Surface Oscillation Of Nanoparticles
  • 1.1.4 Influence Of The Surface Morphology On The Kinetics Of A Cathodic Fuel Cell Reaction
• 1.2 Catalysts Overcome Fuel Cell Technical Obstacles And Operational Disadvantages
• 1.3 Types Of Fuel Cell Technologies
  • 1.3.1 Comparison of Fuel Cell Technologies
  • 1.3.2 PEM Platinum / Ruthenium Catalysts
  • 1.3.3 Direct Methanol Fuel Cells
  • 1.3.4 Alkaline Fuel Cells
  • 1.3.5 Phosphoric Acid Fuel Cells
  • 1.3.6 Molten Carbonate Fuel Cells
  • 1.3.7 Solid Oxide Fuel Cells
  • 1.3.8 Regenerative Fuel Cells
• 1.4 Nanoscopic Bits Of Platinum For Fuel Cell Catalyst Technology
  • 1.4.1 Improving The Performance Of Platinum Catalysts
  • 1.4.2 Shape Transformation and Surface Melting of Cubic and Tetrahedral Platinum Nanocrystals
  • 1.4.3 Catalytic Activity Dependent On The Size And Shape Of Nanocrystals
  • 1.4.4 Why Gold Nanoparticles Are More Precious Than Pretty Gold: Susie Eustis and Mostafa A. El-Sayed
  • 1.4.5 Effect of Catalysis on the Stability of Metallic Nanoparticles: Suzuki Reaction Catalyzed by PVP-Palladium Nanoparticles Radha Narayanan and Mostafa A. El-Sayed
• 1.5 Palladium Catalysts Prepared By Glow Discharge Plasma For The Selective Hydrogenation Of Acetylene
  • 1.5.1 Shape-Controlled Synthesis of Colloidal Platinum Nanoparticles
  • 1.5.2 Platinum Nanocrystals
  • 1.5.3 Testing of the Palladium Membrane Reactor and Potential Applications for Hydrogen Production
• 1.6 Platinum Dissolution And Deposition In A Membrane
  • 1.6.1 TEM Platinum Deposition Image Of The Cathode

2. Fuel Cell Catalyst Market Shares and Market Forecasts

• 2.1 Platinum Fuel Cell Catalyst
• 2.2 Fuel Cell Catalysts Market Driving Forces
  • 2.2.1 Fuel Cell Catalysts Market Dynamics
• 2.3 Worldwide Fuel Cell Catalysts Market Shares
  • 2.3.1 Johnson Matthey
  • 2.3.2 QuantumSphere QSI-Nano Palladium
  • 2.3.3 QuantumSphere Fuel Cell Catalysts
  • 2.3.4 Acta Breakthrough Electrolyser Catalyst
  • 2.3.5 Acta Platinum Free Catalysts
• 2.4 Fuel Cell Catalyst Market Forecasts
  • 2.4.1 Fuel Cell Catalyst Regional Market Analysis
• 2.5 Platinum Market Analysis
  • 2.5.1 Fuel Cell Catalysts
  • 2.5.2 Platinum Fuel Cell Catalysts
  • 2.5.3 Platinum Supply By Region
  • 2.5.4 Reduction Of The Amount Of Platinum-Loading
• 2.6 Stationary Fuel Cell Catalysts
  • 2.6.1 Stationary Fuel Cells Market
  • 2.6.2 Fuel Cells Portable Market
  • 2.6.3 Fuel Cells Transportation Market
  • 2.6.4 Worldwide Stationary Fuel Cell Market Growth Drivers
• 2.7 Fuel Cells Strengths and Weaknesses
• 2.8 Fuel Cell Market Regional Analysis
  • 2.8.1 Fuel Cells California
  • 2.8.2 Fuel Cells U.S.
  • 2.8.3 U.S. Solid-State Energy Conversion Alliance SECA
  • 2.8.4 U.S. Boston Area Acumentrics, Cell Tech Power, Protonex Technology of Southborough, Ztek in Woburn, and Cambridge sister companies TIAX and Nuvera Fuel Cells
  • 2.8.5 Fuel Cells Canada
  • 2.8.6 Fuel Cells in Canada
  • 2.8.7 Fuel Cells Japan
  • 2.8.8 New Energy Foundation Project (NEF) And The Japan Gas Association Matsushita Electric
  • 2.8.9 Sales Prospects Japan
  • 2.8.10 New Sunshine Project (Japan)
  • 2.8.11 Fuel Cell Development in Japan
  • 2.8.12 Fuel Cell Cogeneration in Japan
  • 2.8.13 Tokyo-Based JGA Millennium Program,
  • 2.8.14 Japanese Government Subsidies in 2006
  • 2.8.15 Fuel Cell Cogeneration In Japan
  • 2.8.16 Establishing Codes And Standards Are Very Important For Advancing Fuel Cell Systems In Japan
  • 2.8.17 Fuel Cells Germany
  • 2.8.18 EPRI Strategic Planning
  • 2.8.19 Electric Power Research Institute (EPRI) Scenarios: Fuel Prices And Environmental Mitigation Costs High
  • 2.8.20 Electric Power Research Institute (EPRI) Scenarios: Evolution Of Fuel Prices And CO2 Costs

3. Fuel Cell Catalyst Product Description

• 3.1 Johnson Matthey Fuel Cell Catalysts
  • 3.1.1 Johnson Matthey Fuel Cells
  • 3.1.2 Johnson Matthey HiSPECR Catalyst
  • 3.1.3 Johnson Matthey Addresses Catalytic Components
  • 3.1.4 Johnson Matthey Catalysts For Hydrogen Production
• 3.2 ACTA
  • 3.2.1 Acta Catalyst For Direct Alcohol Fuel Cells
  • 3.2.2 Acta Platinum Free Catalysts
• 3.3 QuantumSphere
  • 3.3.1 QSI Methanol Fuel Cell / Hydrogen Fuel Cell
  • 3.3.2 QSI Methanol Fuel Cell
  • 3.3.3 QuantumSphere Funds University Research
  • 3.3.4 QuantumSphere QSI-NanoR Palladium
  • 3.3.5 QuantumSphere Efficiencies in Hydrogen Generation
  • 3.3.6 QuantumSphere 45% Increase in Power Incorporating QSI-NanoR Cobalt in Direct Methanol Fuel Cells Membrane Electrode Assembly
  • 3.3.7 QuantumSphere QSI-NanoR Catalysts For Large Batteries Has 320% Increase In Power For Zinc-Air Battery Cathodes
  • 3.3.8 QuantumSphere Ultra-Pure, Highly Uniform Nanometals And Alloys Under 100 Nanometers
• 3.4 DoppStein Enterprises DSE
  • 3.4.1 DoppStein Enterprises Independent Scientific Data To Validate QuantumSphere
• 3.5 Argonne US National Laboratory
• 3.6 BASF Fuel Cell
  • 3.6.1 PEMEAS (BASF)
  • 3.6.2 E-TEK™ Division Of BASF / PEMEAS
• 3.7 Fuel Cell Markets Ltd
• 3.8 Cabot Fuel Cell Electrocatalysts
  • 3.8.1 Cabot' s DynalystR Electrocatalysts Manufacturing Process
  • 3.8.2 Cabot Advanced Fuel Cell Development
  • 3.8.3 Cabot Modified Carbon Electrocatalyst Technology
  • 3.8.4 Cabot Modified Carbon Black Technology
  • 3.8.5 Cabot Low Relative Humidity Fuel Cell Catalysts
  • 3.8.6 Cabot Advanced Fuel Cell Development
• 3.9 NEC Carbon Nanohorns Fuel Cell Catalysts
  • 3.9.1 Fuel Cell Catalyst Nanotechnology At NEC
  • 3.9.2 NEC Bottom-Up Self-Assembly Nanotechnology For Creation Of Materials With New Properties Such As Fullerene And The Carbon Nanotube
  • 3.9.3 Top-Down Type Of Nanofabrication Technology
  • 3.9.4 NEC Calixarene
  • 3.9.5 NEC Nanofabrication/Nano-Characterization - Calixarene and CNT Control Technology -
  • 3.9.6 CNT Cylindrically Shaped Carbon Material
  • 3.9.7 NEC CNH Nanometric Carbon Tubes
  • 3.9.8 NEC Synthesis of CNT and CNH
  • 3.9.9 NEC Nanotechnology Lets Platinum Works As The Catalyst Efficiently
  • 3.9.10 NEC Increases Surface Area Of Platinum Particles
• 3.10 PolyFuel Key Polymer Portable Fuel Cell Technology
  • 3.10.1 PolyFuel Engineers The Nano-Architectures And The Chemical Characteristics Of A Membrane
  • 3.10.2 Fluorocarbon Membranes State Of The Art
• 3.11 Oxford Catalysts
  • 3.11.1 Oxford Catalysts Platform Is For A Novel Class Of Catalysts Incorporating Metal Carbides
• 3.12 Grace Davison
• 3.13 Voller Energy Group
• 3.14 Zhong Lin Wang Catalyst For Hydrogen Production
• 3.15 Oxford University Enzyme-Based Hydrogen Fuel Cell
  • 3.15.1 Trulite Fuel Cell Technology
• 3.16 Hydra Fuel Cell
• 3.17 Brookhaven National Laboratory
  • 3.17.1 Metal Nanoparticles Do Catalysis When Put On Ceria
  • 3.17.2 GSI Creos Carbon Nanotubes (CNTs) For Fuel Cells
  • 3.17.3 Topsoe Fuel Cell Solid Oxide Fuel Cell
  • 3.17.4 Umicore elyst Electrocatalysts
  • 3.17.5 Advent Technologies SA
• 3.18 Altair Nanomaterials
• 3.19 Best Water Technology ALTI BWT
• 3.20 Dupont Fuel Cells NafionR Membranes and Dispersions
• 3.21 Hoku Scientific
• 3.22 Ion Power Membranes For Direct Methanol Fuel Cells
• 3.23 ITM Power Ltd
• 3.24 Solvay Solexis
• 3.25 Entegris Cell Stack Subassembly
• 3.26 Argonne National Laboratory Catalyst Breakthrough Boosts Hydrogen Fuel Cells
  • 3.26.1 Thermal Stability in Air of Pt/C Catalysts and PEM Fuel Cell Catalyst Layers
  • 3.26.2 Department of Chemistry, Brookhaven National Laboratory Stabilization of Platinum Oxygen-Reduction Electrocatalysts Using Gold Clusters
  • 3.27 Sud-Chemie Incorporated
  • 3.27.1 Sud-Chemie Feedstock Purification Catalysts:
  • 3.27.2 Sud-Chemie Feedstock Reforming Catalysts:
  • 3.27.3 Sud-Chemie Water-Gas Shift Catalysts
  • 3.27.4 Sud-Chemie Carbon Monoxide Purification Catalysts:
  • 3.27.5 Sud-Chemie Off-Gas Combustion Catalysts:
  • 3.27.6 Sud-Chemie Syngas Catalysts
• 3.28 Catalysts for Butane Reforming in Zirconia Fuel Cells
• 3.29 IdaTech and RWE

4. Fuel Cell Catalyst Technology

• 4.1 Catalyst Allows Chemical Conversions
• 4.2 Cabot Proprietary Technology Attaches Organic Groups To The Surface Of Carbon Black Particles
  • 4.2.1 Surface Of Carbon Black Particles Ewplaxes Organic Groups Oxidation And Surfactant Adsorption
• 4.3 Johnson Matley Noble Metal Hydrodechlorination Catalyst
  • 4.3.1 Johnson Matley Tungsten-Containing Fuel Cell Catalyst
• 4.4 Carbon Nanotechnologies
• 4.5 NEC Nanoparticle Fabrication
  • 4.5.1 Calixarene
  • 4.5.2 NEC Iron Nanoparticle LANS Process
  • 4.5.3 Key Nanotechnologies
• 4.6 QuantumSphere Positions Nano-palladium To Replace Platinum
• 4.7 Membrane PEM Fuel Cell
  • 4.7.1 QuantumSphere High-Quality Nanocatalysts
• 4.8 Coal Gasification
• 4.9 Hydrogen
  • 4.9.1 Metalloporphyrin Catalysts
• 4.10 Gold Catalyst For Fuel Cells

5 Fuel Cell Catalyst Company Profiles

• 5.1 ACTA
  • 5.1.1 Acta Technology
  • 5.1.2 ACTA Revenue
  • 5.1.3 ACTA Fuel Cell Technology Distribution Contract With Sumitomo/Summit Medichem
  • 5.1.4 Acta Proprietary Nanotechnology
• 5.2 Argonne National Laboratory
• 5.3 BASF Fuel Cell GmbH Targets Fuel Cell Industry
  • 5.3.1 BASF / PEMEAS
  • 5.3.2 BASF Fuel Cell
  • 5.3.3 BASF / PEMEAS / E-TEK
• 5.4 Cabot Corporation
  • 5.4.1 Cabot Fuel Cells Group
• 5.5 DoppStein Enterprises
• 5.6 Engelhard
• 5.7 Fuel Cell Energy
• 5.8 Johnson Matthey
  • 5.8.1 Johnson Matthey Catalysts Division
  • 5.8.2 Johnson Matthey Builds Autocatalyst Facility In Korea
  • 5.8.3 Johnson Matthey Autocatalyst Facility In Russia
  • 5.8.4 Johnson Matthey Speciality Chemicals
• 5.9 National Hydrogen Association
• 5.10 Oxford Catalysts
  • 5.10.1 Oxford Catalysts Revenue
  • 5.10.2 Oxford Catalysts Licences
  • 5.10.3 Oxford Catalysts Patents
• 5.11 PolyFuel
• 5.2 QuantumSphere
  • 5.11.1 QuantumSphere Advanced Materials Leveraging Nano Catalysts for Clean-Energy Applications
  • 5.11.2 QuantumSphere Nanoscale Catalyst Materials
  • 5.11.3 QuantumSphere Highly Efficient Hydrogen Generation via Water Electrolysis Using Nanometal Electrodes
• 5.12 SGL Group:
  • 5.12.1 SGL Group - The Carbon Company
• 5.3 Sud-Chemie Incorporated
  • 5.12.2 Sud-Chemie in Quebec in Lithium Iron Phosphate production
• 5.13 Superprotonic

• Table ES-1
  • Fuel Cell Catalysts Market Driving Forces
• Figure ES-2
  • Worldwide Fuel Cell Catalysts Market Shares, Dollars, First Half 2007
• Figure ES-3
  • Worldwide Fuel Cell Catalysts Market Forecasts, Dollars, 2007-2013
• Table 1-1
  • Influence Of The Surface Morphology On The Kinetics Of A Cathodic Fuel Cell Reaction
• Table 1-2
  • Types Of Fuel Cell Technologies
• Table 1-3
  • Comparison of Fuel Cell Technologies
• Figure 1-4
  • Schematic Drawing Of Platinum Deposition In A Polymer Electrolyte Membrane.
• Figure 1-5
  • TEM Images Of A Cross-Section Of MEA
• Table 2-1
  • Fuel Cell Catalysts Market Driving Forces
• Table 2-2
  • Fuel Cell Catalysts Market Functions
• Figure 2-3
  • Worldwide Fuel Cell Catalysts Market Shares, Dollars, First Half 2007
• Figure 2-4
  • Worldwide Fuel Cell Catalysts Shipment Market Shares, Dollars, 2006 and First Half 2007
• Figure 2-5
  • Worldwide Fuel Cell Catalysts Market Forecasts, Dollars, 2007-2013
• Table 2-6
  • Worldwide Fuel Cell Catalysts Market Forecasts, Dollars, 2007-2013
• Table 2-7
  • Worldwide Fuel Cell Catalysts Market Forecasts, Percent, 2007-2013
• Table 2-8
  • Platinum Supply and Demand
• Table 2-9
  • Worldwide Stationary Fuel Cell Market Growth Drivers
• Table 2-10
  • Worldwide Stationary Fuel Cell Market Segments
• Table 2-11
  • Fuel cell Technology Positioning
• Table 2-12
  • Stationary Fuel Cells Strengths and Weaknesses
• Table 2-13
  • Japanese Government Schedule for Fuel Cell Introduction
• Table 2-14
  • Japanese Sales Prospects
• Table 3-1
  • Johnson Matthey Products
• Table 3-2
  • HiSPECR Product Line
• Table 3-3
  • Johnson Matthey Ongoing Catalyst Development
• Table 3-4
  • Fuel Processing Applications Of The Johnson Matthey Synetix Company
• Table 3-5
  • Fuel Cell Catalysts:
• Table 3-6
  • Acta Catalyst Products
• Table 3-7
  • QSI-NanoR catalyst solution:
• Table 3-8
  • QuantumSphere Central Research Strategies
• Table 3-9
  • QuantumSphere Central Research Directions Meant to Achieve Commercially Viable FuelCell Catalyst Applications
• Figure 3-10
  • QuantumSphere Porous Electrode
• Figure 3-11
  • QuantumSphere Surface of Electrode 10 nm Particles In Electrode (Nanoparticles On A Support)
• Figure 3-12
  • QuantumSphere 10 nm particles in electrode (Width 75 Nanometer) Porous Catalyst
• Figure 3-13
  • Cost per gge As A Function Of Electricity Cost
• Table 3-14
  • Quantumsphere' s catalyst products
• Table 3-15
  • BASF Fuel Cell Features
• Table 3-16
  • E-TEK Catalyst Products
• Table 3-17
  • E-TEK' s Catalyst Technologies
• Table 3-18
  • Cabot' s DynalystR Electrocatalysts
• Table 3-19
  • Cabot' s DynalystR Electrocatalysts Key Properties
• Table 3-20
  • Cabot' s DynalystR Electrocatalysts Key Applications
• Table 3-21
  • Cabot Manipulation Of More Substances Via Expansion Of What Is Possible With Carbon Blacks
• Table 3-22
  • Cabot Advanced Fuel Cell Electrocatalysts Functions
• Figure 3-23
  • Oxford Catalysts
• Table 4-1
  • Hydrogen-Air Fuel Cell Performance
• Figure 4-2
  • Metal Chalcogenides Group Of Materials With Potential For Replacing Platinum In The Pefc Cathode
• Table 5-1
  • University ACTA Development Programs
• Table 5-2
  • BASF Fuel Cell Activities
• Table 5-3
  • Oxford Catalysts Group Initiatives