Worldwide Nanotechnology Electric Vehicle (EV) Market Shares, Strategies, and Forecasts, 2009 to 2015

Table of Contents

• Electric Vehicle Design Trajectories
  • TH!NK City Safety Concept
  • Daimler
  • REVA Electric Car
  • Ford Advances Electric Vehicle Technology
  • Charging Electric Cars
  • Warren Buffet with Berkshire Hathaway Group
  • Electric Vehicle Market Driving Forces
• Electric Vehicle Market Shares
• Electric Vehicle Economic Market Driving Forces
  • Nanotechnology Forms the Base for Lithium-Ion Batteries

• Electric Vehicles Market Forecasts
• Electric Vehicle Battery Recharging
  • Variety Of Electric Vehicle Initiatives
  • Think Overnight Power Top-Up
  • Think Significant Advancements In Battery Technology

• 1.1 Auto Industry
  • 1.1.1 Electric Vehicle Economic Forces
  • 1.1.2 Cars Represent 20% Of The US Economic Retail Spending
  • 1.1.3 Electric Vehicle Design Trajectories
• 1.2 Electric Vehicle EVs
  • 1.2.1 EVs Cost Effective In City Conditions
  • 1.2.2 Lithium-Ion Car Batteries
  • 1.2.3 Private-Public Partnerships
• 1.3 Lithium-Ion Battery Target Markets
  • 1.3.1 Project Better Place and the Renault-Nissan Alliance
  • 1.3.2 Largest Target Market, The Transportation Industry
  • 1.3.3 Electric Grid Services Market
  • 1.3.4 Portable Power Market, Power Tools
• 1.4 Lithium-Ion Battery Technologies Transportation Industry Target Market
• 1.5 Energy Storage For Grid Stabilization
  • 1.5.1 Local Energy Storage Benefit For Utilities
• 1.6 Applications Require On-Printed Circuit Board Battery Power
  • 1.6.1 Thin-film vs. Printed Batteries
• 1.7 Smart Buildings
  • 1.7.1 Permanent Power for Wireless Sensors
• 1.8 Battery Safety / Potential Hazards
• 1.9 Thin Film Solid-State Battery Construction
• 1.10 Battery Is Electrochemical Device
• 1.11 Battery Depends On Chemical Energy
  • 1.11.1 Characteristics Of Battery Cells
  • 1.11.2 Batteries Are Designed Differently For Various Applications

• 2.1 Electric Vehicle Economic Market Driving Forces
  • 2.1.1 Nanotechnology Forms the Base for Lithium-Ion Batteries
  • 2.1.2 Lithium-Ion Batteries
• 2.2 Electric Vehicle Market Shares
  • 2.2.1 Daimler Safety Cell
  • 2.2.2 Daimler Smart Car
  • 2.2.3 BYD
  • 2.2.4 Think Environmentally Friendly Vehicles
  • 2.2.5 TH!NK City Safety Concept
  • 2.2.6 Think Overnight Power Top-Up
  • 2.2.7 GM Volt
  • 2.2.8 GM Opel
  • 2.2.9 Tesla Motors
  • 2.2.10 i MiEV Electric Car by Mitsubishi
  • 2.2.11 Mitsubishi
  • 2.2.12 Subaru Selling EVs In Japan In 2009
  • 2.2.13 BMW
  • 2.2.14 REVA Electric Car
  • 2.2.15 Ford Advances Electric Vehicle Technology
  • 2.2.16 Ford Partnership With Utility Industry
  • 2.2.17 Toyota Hybrid Prius
  • 2.2.18 Nissan
  • 2.2.19 Phoenix Motorcars
  • 2.2.20 Fuji Heavy Industries / Subaru
  • 2.2.21 Chrysler
• 2.3 Electric Vehicles Market Forecasts
• 2.4 Electric Vehicle Battery Recharging
  • 2.4.1 Changing Electric Vehicles On The Fly
• 2.5 2008 / 2009 Auto Sales Overview
  • 2.5.1 Korean Cars Succeed In US
  • 2.5.2 Total Vehicles Sold / GM Profile
  • 2.5.3 GM Global Vehicle Sales and Market Share - 2007
  • 2.5.4 Worldwide Automotive Sales For 2007
  • 2.5.5 Deepening Slowdown
• 2.6 Electric Vehicles As A Very Fancy Golf Cart
• 2.7 Worldwide Nanotechnology Thin Film Lithium-Ion Battery Market Driving Forces
  • 2.7.1 Market Driving Forces
  • 2.7.2 Nanotechnology Forms the Base for Lithium-Ion Batteries
  • 2.7.3 Competitors
• 2.8 Lithium-Ion Battery Market Shares
  • 2.8.1 ExxonMobil Affiliate in Japan / Tonen Chemical
  • 2.8.2 A123Systems Patent for Nanophosphate"! Lithium Ion Battery Technology
• 2.9 Lithium-Ion Battery Market Forecasts
• 2.10 Electric Vehicle and Hybrid Vehicle Lithium-Ion Battery Market Shares
  • 2.10.1 BYD
  • 2.10.2 Johnson Controls-Saft
  • 2.10.3 Saft Battery Technologies
  • 2.10.4 A123Systems 32 Series Automotive Class Lithium Ion"! Cells:
  • 2.10.5 NEC and Nissen
  • 2.10.6 LG Chem
  • 2.10.7 EnerDel
  • 2.10.8 Competition
• 2.11 Electric and Hybrid Vehicle Lithium-Ion Battery Market Forecasts
  • 2.11.1 Largest Target Market, The Transportation Industry
    • Thin Film Advanced Lithium-Ion Battery EV Market
    • Thin Film Lithium-Ion And Lithium Polymer Automotive Batteries

• 3.1 BMW
  • 3.1.1 BMW Second Version Of The Electric Mini
• 3.2 BYD / MidAmerican Energy Holdings
  • 3.2.1 Warren Buffet - MidAmerican, A Collection Of Electric Utilities In The Midwest
  • 3.2.2 BYD Plug-in Hybrid Power Train Flexibility
  • 3.2.3 BYD E6 Electric Car and F6
  • 3.2.4 BYD E6 Electric Vehicle Specifications
• 3.3 Tesla Motors
  • 3.3.1 Electric Roadster by Tesla Motors
  • 3.3.2 Tesla Motors Next Generation Model S
  • 3.3.3 Telsa Battery Pack And Frame
• 3.4 Daimler AG
  • 3.4.1 Daimler Smart Car Model Features
  • 3.4.2 Electric Car by Daimler Mercedes (2010)
• 3.5 Think
  • 3.5.1 A123Systems / GE Production Contract for Norwegian Think Electric Vehicles
  • 3.5.2 Think Overnight Power Top-Up
  • 3.5.3 TH!NK City Safety Concept
  • 3.5.4 TH!NK City Environmentally Friendly
  • 3.5.5 Thinking Globally
• 3.6 General Motors
  • 3.6.1 GM Volt
  • 3.6.2 GM Challenge to Battery Developers
  • 3.6.3 GM and A123Systems Co-Develop Lithium-Ion Battery Cell for Chevrolet Volt
  • 3.6.4 GM Cadillac Electric Vehicle
  • 3.6.5 GM / Opel
  • 3.6.6 GM Chevrolet Equinox Fuel-Cell Vehicles
• 3.7 Miles XS500 Electric Car
• 3.8 Mitsubishi i MiEV Electric Car to be Sold 1 Year Ahead of Schedule in Japan
  • 3.8.1 Mitsubishi i MiEV Electric Car Specifications
  • 3.8.2 Mitsubishi i MiEV Electric Car Pricing
  • 3.8.3 i MiEV Electric Car by Mitsubishi
  • 3.8.4 Mitsubishi Electric Car i MiEV Coming to Europe
  • 3.8.5 Mitsubishi Electric Car i MiEV Production Plans
  • 3.8.6 i MiEV Electric Car Specifications
  • 3.8.7 i MiEV Electric Car to be Sold 1 Year Ahead of Schedule
• 3.9 Fuji Heavy Industries / Subaru R1e Electric Car, Source: Subaru.
  • 3.9.1 Subaru Selling EVs In Japan In 2009
  • 3.9.2 Subaru G4e, Source: Subaru.
  • 3.9.3 NEC / Fuji Heavy Industries / Subaru
  • 3.9.4 NEC / Fuji Heavy Industries / Subaru Thin Film Battery Flat Shape
• 3.10 Electric Supercar by Hybrid Technologies
• 3.11 Electric Mini by PML
• 3.12 Electric Car by Nissan (2010-2012)
  • 3.12.1 NEC / Nissan Low-Cost Lithium-Manganese Batteries
• 3.13 REVA Electric Car
• 3.14 Zenn Low Speed Electric Car
• 3.15 Commuter Cars Tango Electric Car
• 3.16 Eliica Electric Car by KEIO University
• 3.17 Wrightspeed X1 Electric Car
• 3.18 Saturn SP1 Electric Car Conversion by Students of Napoleon High School
• 3.19 Toyota Hybrid Prius
  • 3.19.1 Toyota iQ Microcar
  • 3.19.2 Toyota FT-EV Battery Electric Vehicle
• 3.20 Ford
• 3.21 Chrysler
  • 3.21.1 Chrysler Town & Country EV
  • 3.21.2 Chrysler Personal Mobility Revolution
  • 3.21.3 Chrysler Dodge Circuit EV
  • 3.21.4 Chrysler Jeep® Wrangler Unlimited EV
• 3.22 Phoenix
• 3.23 Shelby Supercars
• 3.24 Aptera

• 4.1 Phoenix Motorcars Altairnano Lithium Titanate Battery Technology
  • 4.1.1 Altairnano Battery Comparison
  • 4.1.2 Lead-Acid Battery Technology
  • 4.1.3 Nickel Metal Hydride (NiMH)
  • 4.1.4 Lithium-Ion
• 4.2 Globalization Model For Electric Cars
  • 4.2.1 Better Place Electric Vehicle Network
  • 4.2.2 Better Place has partnered with AGL Energy in Australia
• 4.3 EFOY Pro Fuel Cell Electric Vehicle Charging Kit
  • 4.3.1 Smart Fuel Cells SFC
  • 4.3.2 Citycom AG' s CityEL
• 4.4 Vendor Lithium-ion Battery Strategy
  • 4.4.1 Rechargeable Lithium Batteries Characteristics
• 4.5 Challenges in Battery Design
  • 4.5.1 Advanced Lithium-ion Batteries Requirements
• 4.6 Vendor Lithium-Ion Battery Positioning
  • 4.6.1 High-Quality, Volume Manufacturing Facilities
• 4.7 Applications Of Lithium-Ion Batteries
• 4.8 Mobile Phone Industry
  • 4.8.1 Nanowires
  • 4.8.2 Thin Film Battery Enabling Chemistries
  • 4.8.3 The Cathodes
  • 4.8.4 Solid State Devices Provide More Energy Density
• 4.9 Advantages of Lithium-Ion Batteries
  • 4.9.1 Lithium-Ion Battery Shortcomings
  • 4.9.2 Charging
  • 4.9.3 Applications
  • 4.9.4 Costs
• 4.10 Lithium Cell Chemistry Variants
  • 4.10.1 Lithium-ion
  • 4.10.2 Lithium-ion Polymer
  • 4.10.3 Other Lithium Cathode Chemistry Variants
  • 4.10.4 Lithium Cobalt LiCoO2
  • 4.10.5 Lithium Manganese LiMn2O4
  • 4.10.6 Lithium Nickel LiNiO2
  • 4.10.7 Lithium (NCM) Nickel Cobal Manganese - Li(NiCoMn)O2
  • 4.10.8 Lithium Iron Phosphate LiFePO4
• 4.11 Operating Performance Of The Cell Can Be Tuned
• 4.12 Lithium Metal Polymer
  • 4.12.1 Lithium Sulphur Li2S8
  • 4.12.2 Alternative Anode Chemistry
• 4.13 ExxonMobil affiliate, Tonen Chemical Polyethylene-Based, Porous Film
• 4.14 Cymbet Alternate Manufacturing
• 4.15 Thin-Film Batteries Packaging
• 4.16 ITN Energy Systems Fibrous Substrates, PowerFiber
  • 4.16.1 ITN Sensors
• 4.17 Cell Construction
• 4.18 Impact Of Nanotechnology
• 4.19 Thin Film Batteries
  • 4.19.1 Thin Film Battery Timescales and Costs
  • 4.19.2 High Power And Energy Density
  • 4.19.3 High Rate Capability
• 4.20 Comparison Of Rechargeable Battery Performance
• 4.21 Polymer Film Substrate
• 4.22 Micro Battery Solid Electrolyte

• 5.1 A123 Systems
  • 5.1.1 A123 Systems Revenue
  • 5.1.2 A123Systems Registration Statement for Initial Public Offering
  • 5.1.3 A123 Systems Batteries Benefits
  • 5.1.4 A123 Systems Competitive Advantage
  • 5.1.5 A123 Systems Strategy
  • 5.1.6 A123Systems and GE
  • 5.1.7 A123 Acquisition of Hymotion
  • 5.1.8 Procter & Gamble Duracell and A123 Systems Collaborate
  • 5.1.9 Cobasys and A123 Systems
• 5.2 Aperta
• 5.3 Better Place Model
• 5.4 BMW
• 5.5 BYD
  • 5.5.1 Warren Buffett Buys 10 Percent Stake In BYD Chinese Battery Manufacturer
• 5.6 E-One Moli Energy Group
• 5.7 Ener1
  • 5.7.1 Ener1 Third Quarter 2008 Revenue
  • 5.7.2 Ener1 Positioning Technology Originally Pioneered By Argonne National Lab
  • 5.7.3 Ener1 Acquires Enertech Leading Korean Lithium-ion Battery Cell Producer
  • 5.7.4 Ener1 / Enertech Specializes In Producing Large Format Flat ("Prismatic") Cells
  • 5.7.5 EnerDel Operations
• 5.8 Ford
  • 5.8.1 Ford Electric Vehicle Positioning
  • 5.8.2 Ford' s Comprehensive Sustainability Strategy
  • 5.8.3 Ford Partnership With Southern California Edison Electric Utility
  • 5.8.4 Ford Partnership with Johnson Controls- Saft for Thin Film Batteries
  • 5.8.5 Ford Partnership with Utility Industry
  • 5.8.6 Building A Business Case
  • 5.8.7 Governments Of Japan, China, Korea, And India Significantly Funding EV Research
  • 5.8.8 Ford Energy Future Vision
• 5.9 Fuji Heavy Industries / Subaru
  • 5.9.1 Subaru of America
  • 5.9.2 Subaru of America Revenue 2008
• 5.10 General Motors
  • 5.10.1 General Motors Factory In Michigan To Build Battery Packs
  • 5.10.2 GM 2008 Global Sales of 8.35 Million Vehicles
  • 5.10.3 GM Continues Growth in Emerging Markets
  • 5.10.4 GM' s North America Regional Performance
  • 5.10.5 GM Europe
  • 5.10.6 GM Strongly Believes In The Electrification Of The Automobile
• 5.11 Miles Electric Vehicles
  • 5.11.1 Miles Zero Emissions, Full Electric Car
• 5.12 Johnson Controls-Saft
• 5.13 LG Petrochemical
  • 5.13.1 LG Chem
• 5.14 Mitsubishi
  • 5.14.1 Fleet Testing Of The Zero-Emissions iMiev Electric Vehicle
• 5.15 NEC / Nissan Low-Cost Lithium-Manganese Batteries
  • 5.15.1 NEC Lamilion Energy
• 5.16 Panasonic / Sanyo
• 5.17 Phoenix Motorcars
  • 5.17.1 Phoenix Motorcars Customers: Maui Electric
  • 5.17.2 Phoenix MC All-Electric, Light-Duty Trucks
• 5.18 REVA
  • 5.18.1 REVA Car Features
  • 5.18.2 REVA Globally Tested Product
• 5.19 Saft
  • 5.19.1 Saft Battery Technologies
  • 5.19.2 Saft Industrial Battery Group (IBG)
  • 5.19.3 Saft Specialty Battery Group (SBG)
  • 5.19.4 Saft Rechargeable Battery Systems (RBS)
  • 5.19.5 Saft Research and Development
  • 5.19.6 Johnson Controls-Saft United States Advanced Battery Consortium(USABC)
• 5.20 Samsung
• 5.21 Shelby SuperCars
  • 5.21.1 Sheffield International Finance Corporation
  • 5.21.2 SSC Monthly Newsletter
• 5.22 Tesla Motors
  • 5.22.1 Tesla Battery Packs
  • 5.22.2 Tesla Roadster
  • 5.22.3 Tesla Restructuring
• 5.23 Think
  • 5.23.1 Think Manufacturing Capacity
  • 5.23.2 Think Employees Called Back From Lay-Off
  • 5.23.3 Think Confirms Interim Financing - Private Equity Firm Ener1 Group Is The Lead Investor
  • 5.23.4 Kleiner Perkins And Rockport Capital, Two Leading Us Cleantech Investors Launch Joint Venture With Norwegian Electrical Vehicle Company Think
  • 5.23.5 TH!NK city Crash-Tested And Highway- Certified EV
  • 5.23.6 Think Strategic Partnership With Energy Giant General Electric
  • 5.23.7 Think collaboration with Porsche Consulting
• 5.24 Toyota
• 5.25 ZENN Motor Company
  • 5.25.1 Zenn Motor Strategic Energy Storage Partner, Eestor

• Figure ES-1
  • Aptera Pre-Production Model 2e
• Figure ES-2
  • REVA Electric Car
• Table ES-3
  • Electric Vehicle Market Driving Forces
• Table ES-3 (Continued)
  • Electric Vehicle Market Driving Forces
• Figure ES-4
  • Worldwide Electric Vehicles On The Road Market Shares, Units, 2009
• Figure ES-5
  • Worldwide Electric Vehicle Penetration of Automotive and Light Truck Market Forecasts, Percent, 2009-2015
• Figure ES-6
  • Worldwide Electric Vehicle Retail Forecasts, Dollars, 2009-2015
• Table ES-7
  • Reasons For Aggressive Forecast For Electric Vehicle Markets
• Table ES-7 (Continued)
  • Reasons For Aggressive Forecast For Electric Vehicle Markets
• Table ES-8
  • New Infrastructure, New Driving Modalities Brought By Electric Vehicles
• Table 1-1
  • Principal Features Used To Compare Rechargeable Batteries
• Figure 1-2
  • BMW' s Mini E Electric Car Powered By A Rechargeable Lithium-Ion Battery
• Table 1-3
  • Examples of Hybrid Electric Vehicles
• Figure 1-4
  • Typical Structure Of A Thin Film Solid State Battery
• Table 1-5
  • Characteristics Of Battery Cells
• Table 2-1
  • Lithium-Ion Battery Market Driving Forces
• Table 2-2
  • Energy Advantages Of Thin-Film Batteries
• Figure 2-3
  • Aptera Pre-Production Model 2e
• Table 2-4
  • Electric Vehicle Market Driving Forces
• Table 2-4 (Continued)
  • Electric Vehicle Market Driving Forces
• Figure 2-5
  • Worldwide Electric Vehicles On The Road Market Shares, Units, 2009
• Table 2-6
  • Worldwide Electric Vehicle Shipments Market Shares, Units On the Road 2009
• Figure 2-7
  • i MiEV Electric Car by Mitsubishi - Red
• Figure 2-8
  • REVA Electric Car
• Figure 2-9
  • Worldwide Electric Vehicle Penetration of Automotive and Light Truck Market Forecasts, Percent, 2009-2015
• Table 2-10
  • Worldwide Electric Vehicle (EV) Unit Shipments and Automotive Market Retail Forecasts and Penetration Analysis, 2009-2015
• Figure 2-11
  • Worldwide Electric Vehicle Retail Forecasts, Dollars, 2009-2015
• Table 2-12
  • Worldwide Electric Vehicle (EV) Unit Shipments and Automotive Market Retail Forecasts and Penetration Analysis, 2009-2015
• Table 2-13
  • Worldwide Electric Vehicle (EV) Unit Shipments and Automotive Market Retail Forecasts, Penetration Analysis, 2009-2015
• Table 2-14
  • Worldwide Automotive and Light Truck Small Size Electric Vehicle (EV) Market Forecasts, Dollars, 2009-2015
• Table 2-15
  • Worldwide Small Electric Vehicle (EV) Market Forecasts, Units, 2009-2015
• Table 2-16
  • Worldwide Small Car and Small Light Truck Electric Vehicle (EV) Automotive Market Retail Forecasts, Units and Dollars, 2009-2015
• Table 2-17
  • Worldwide Sedan Size Automotive and Light Truck Electric Vehicle (EV) Retail Market Forecasts, Dollars, 2009-2015
• Table 2-18
  • Worldwide Sedan Size Automotive and Light Truck Electric Vehicle (EV) Shipments Retail Market Forecasts, Units, 2009-2015
• Table 2-19
  • Worldwide Sedan Size Car and Light Truck Electric Vehicle (EV) Unit Shipments and Automotive Market Retail Forecasts, Units and Dollars, 2009-201
• Table 2-20
  • Reasons For Aggressive Forecast For Electric Vehicle Markets
• Table 2-21
  • New Infrastructure, New Driving Modalities Brought By Electric Vehicles
• Table 2-22
  • Lithium-Ion Battery Market Driving Forces
• Table 2-23
  • Energy Advantages Of Thin-Film Batteries
• Figure 2-24
  • Worldwide Lithium-Ion Thin Film Advanced Battery Shipments, Market Shares, Dollars, 2008
• Table 2-25
  • Worldwide Lithium-Ion Thin Film Advanced Battery Shipments, Market Shares, Dollars, 2008
• Figure 2-26
  • Worldwide Lithium-Ion Thin Film Advanced Battery Shipments, Market Shares, Dollars, 2009-2015
• Figure 2-27
  • Worldwide Lithium-Ion and Advanced Lithium-ion Battery Market Forecasts, Automotive, Power Tools, Electric Grid, and PC Card, Dollars, 2009-2015
• Figure 2-28
  • Worldwide Lithium-Ion Thin Film Automotive Advanced Battery Shipments, Market Shares, Dollars, 2008
• Figure 2-29
  • Worldwide Lithium-Ion Thin Film Automotive Advanced Battery Shipments, Market Shares, Dollars, 2008
• Figure 2-30
  • Worldwide Lithium-Ion Thin Film Advanced Battery Shipments, Market Shares, Dollars, 2009-2015
• Figure 2-31
  • Worldwide Lithium-Ion Thin Film Advanced Battery Shipments, Market Shares, Units, 2009-2015
• Figure 2-32
  • Worldwide Lithium-Ion Thin Film Advanced Battery Shipments, Market Shares, Units and Dollars, 2009-2015
• Table 2-33
  • Commercialization Challenges Of The Automotive, Truck, and Bus Thin Film Battery Industry
• Table 2-34
  • Integrated Thin Film Battery Personal Transport Power Systems
• Figure 3-1
  • BMW' S Mini E Electric Car Powered By A Rechargeable Lithium-Ion Battery
• Figure 3-2
  • BYD E6 Electric Car
• Figure 3-3
  • BYD F3DM Front View
• Figure 3-4
  • BYD F3DM Rear View
• Figure 3-5
  • BYD F3 Moon Roof
• Table 3-6
  • BYD Plug-in Hybrid Powertrain Flexibility
• Figure 3-7
  • BYD E6 Electric Car
• Figure 3-8
  • BYD F6
• Figure 3-9
  • Tesla Motors Roadster
• Figure 3-10
  • Tesla Motors Roadster Torque and Power Graph
• Figure 3-11
  • Model S by Tesla Motors
• Figure 3-12
  • Daimler AG Smart car
• Figure 3-13
  • Daimler Smart Car
• Figure 3-14
  • Daimler Electric Mercedes
• Figure 3-15
  • Prince Albert of Monaco Driving TH!NK city
• Figure 3-16
  • Driving TH!NK city
• Figure 3-17
  • Think Driver Console
• Figure 3-18
  • Think Open
• Figure 3-19
  • Think OX
• Figure 3-20
  • Think City Electric Vehicle
• Table 3-21
  • TH!NK City Specifications
• Table 3-22
  • Think City Standard Equipment:
• Table 3-22 (Continued)
  • Think City Standard Equipment:
• Table 3-23
  • TH!NK City Features
• Figure 3-24
  • Think Lineup of Electric Cars
• Figure 3-25
  • General Motors Chevrolet Volt - Front View
• Figure 3-26
  • General Motors Chevrolet Volt - Angle View
• Figure 3-27
  • General Motors Chevrolet Volt - Rear View
• Figure 3-28
  • General Motors Chevrolet Volt
• Figure 3-29
  • GM Cadillac Electric Vehicle
• Figure 3-30
  • General Motors EV1 Electric Car
• Figure 3-31
  • XS500 Electric Car by Miles
• Figure 3-32
  • MiEV Electric Car by Mitsubishi - In Traffic
• Figure 3-33
  • MiEV Electric Car by Mitsubishi - Battery Packaging
• Figure 3-34
  • MiEV Electric Car by Mitsubishi - Red
• Figure 3-35
  • MiEV Electric Car by Mitsubishi - Gray
• Figure 3-36
  • MiEV Electric Car by Mitsubishi - Interior
• Figure 3-37
  • MiEV Electric Car by Mitsubishi - Features
• Figure 3-38
  • Mitsubishi I Miev Electric Car
• Figure 3-39
  • Mitsubishi I Miev Electric Car Interior Engine and Drive Train Layout
• Figure 3-40
  • Fuji Heavy Industries / Subaru R1e Electric Car
• Figure 3-41
  • Subaru R1e Electric Car Plug Station
• Figure 3-42
  • Subaru G4e Electric Car
• Figure 3-43
  • Hybrid Technologies Electric Supercar
• Figure 3-44
  • Electric Mini by PML
• Figure 3-45
  • Test Electric Car by Nissan
• Figure 3-46
  • REVA Electric Car
• Figure 3-47
  • Zenn Auto
• Figure 3-48
  • Zenn Electric Auto Close-up
• Figure 3-49
  • Zenn Auto Parked in Street
• Figure 3-50
  • Zenn Electric Auto - Gray with Sun Roof
• Figure 3-51
  • Commuter Cars Tango Electric Car
• Figure 3-52
  • Commuter Cars Tango in Washington DC
• Figure 3-53
  • Eliica Electric Car
• Figure 3-54
  • Wrightspeed X1 Electric Car
• Figure 3-55
  • Saturn SP1 Electric Car Conversion
• Figure 3-56
  • Toyota Hybrid Prius
• Figure 3-57
  • Toyota FT-EV Battery Electric Vehicle
• Figure 3-58
  • Toyota Electric Car
• Table 3-59
  • Chrysler ENVI Electric Minivan Features
• Figure 3-60
  • Interior of The Concept Car, The Chrysler 200C EV
• Table 3-61
  • Chrysler Electric Vehicle Positioning
• Table 3-62
  • Chrysler Electric Vehicle EV
• Figure 3-63
  • Chrysler Electric Vehicles
• Figure 3-64
  • Dodge Circuit EV
• Table 3-65
  • Dodge Circuit EV Features
• Figure 3-66
  • Chrysler Jeep® Wrangler Unlimited EV
• Figure 3-67
  • Jeep® Wrangler Unlimited EV Features
• Figure 3-68
  • Phoenix Motorcars SUT Truck
• Figure 3-69
  • Phoenix Motorcars SUV Vehicle
• Figure 3-70
  • Shelby Supercars
• Figure 3-71
  • Shelby Supercars - Doors Raised
• Figure 3-72
  • Aptera Pre-Production Model 2e
• Figure 3-73
  • Aptera 2e Pre-Production Models
• Figure 3-74
  • Aperta Three Wheel Vehicle
• Figure 3-75
  • Aperta Three Wheel Vehicle - Rear View
• Figure 4-1
  • Altairnano Battery Performance:
• Figure 4-2
  • EFOY Pro Fuel Cell Kit For Electric Vehicles
• Figure 4-3
  • Electrica City Car - Red
• Figure 4-4
  • Electrica City Car - Yellow
• Figure 4-5
  • Electrica City Car - Open
• Figure 4-6
  • Electrica City Car - Dashboard
• Figure 4-7
  • Smart Fuel Cells (SFC) Supply The StartLab Open With Power
• Table 4-8
  • Challenges in Lithium-ion Battery Design
• Table 4-9
  • Advantages of Lithium-Ion Batteries, Source: ITN.
• Table 4-10
  • Thin Film Battery Unique Properties
• Table 4-11
  • Comparison of battery performances
• Table 4-12
  • Comparison Of Battery Performances
• Table 4-13
  • Thin Films For Advanced Batteries
• Table 4-14
  • Thin Film Batteries Technology
• Table 4-15
  • Thin Film Battery / Lithium Air Batteries Applications
• Figure 4-16
  • Polymer Film Substrate Thin Flexible Battery Profiles
• Figure 4-17
  • Design Alternatives of Thin Film Rechargable Batteries
• Table 5-1
  • A123 Systems Batteries Benefits
• Table 5-2
  • A123 Systems Competitive Positioning
• Table 5-2 (Continued)
  • A123 Systems Competitive Positioning
• Table 5-2 (Continued)
  • A123 Systems Competitive Positioning
• Figure 5-3
  • Aptera Vehicle Early Drawings
• Figure 5-4
  • Assembly Facility: Vista, CA
• Figure 5-5
  • Aperta Composite Facility: Carlsbad, CA
• Figure 5-6
  • EnerDel Operations
• Figure 5-7
  • EnerDel Lithium Power Systems
• Figure 5-8
  • EnerDel Lithium Power USABC Contracts
• Figure 5-9
  • EnerDel Lithium Power Think Projct
• Table 5-10
  • Ford Key Government Energy Actions Recommendations
• Figure 5-11
  • Sanyo Battery Targets 2020
• Figure 5-12
  • REVA Electric Car
• Figure 5-13
  • Saft Revenue H1 2008
• Figure 5-14
  • Shelby Supercars
• Figure 5-15
  • Think Auto Production Facility
• Figure 5-16
  • TH!NK North America
• Figure 5-17
  • Toyota Consolidated Vehicle Sales
• Figure 5-18
  • Toyota Strategy
• Figure 5-19
  • Toyota Car