Kit Set Panasonic

Kit Set Panasonic

Worldwide nanotechnology electric vehicle (EV) market shares, strategies and forecasts from 2009 to 2015

Electric vehicles are real. They come in a variety of styles and abilities. The control BMW driving characteristics and style. Chinese BYD Hybrid company backed by Warren Buffet has features that allow flexible plug-in hybrid powertrain. There are a total battery power mode. The manner in series hybrid has a motor driving a generator to recharge the batteries, as a rangeextender. There is a parallel hybrid mode, in which the engine and motor both provide propulsive power.

Electric vehicles represent a huge change in transport. Design paths are different, the opportunities are important as a huge change occurs as the vehicle are the basic functions and how the vehicle. The car companies to seize the market opportunity to switch to a Paradyne new possibilities for success. There are others who merely seek to migrate existing styles and designs for electric vehicles. Buggy whips come to mind.

The ability to connect a car in a backyard hardened set of batteries charged from a solar panel provides the exemption for gasoline costs. To have a second car, powered by a battery that promises to provide a new growth industry. Banks can lend in the car and solar panel. Solar panels are being developed capacity modulate in which can be installed quickly and provide electricity for the car.

Investment in infrastructure in the electric vehicle is a priority. With countries seeking to invest in infrastructure that will provide economic growth, it is clear that a special infrastructure for vehicles Electric stimulate private sector growth. electric vehicle market segment for growth lies for vehicles used for driving local.

Worldwide nanotechnology thin film lithium ion batteries are poised to achieve significant growth in units each again able to achieve to deliver electrical energy efficiently to vehicles. Less expensive lithium ion batteries can take advantage of economies of scale and the proliferation of devices in a wide range of applications. According to Susan Eustis, author of the study, "Economies of scale take the battery Lithium ion nanotechnology advances necessary to make lithium ion batteries to competition. Nanotechnology research provided by lithium ion solve the problems prepared by the need to store renewable energy. The lithium-ion battery switch price reduction is poised to drive market adoption by the production of economic factors. "

Nanotechnology results obtained in the laboratory are being translated into commercial products. Processes translation of the science of nanotechnology in lithium ion batteries thin film is expected to be continuous. The progress of science in the laboratory only have begun to be translated to life outside the lab, with a long way to go in improving the performance of lithium ion batteries.

Unlike any other battery technology, batteries, thin film solid state show the very high life cycle. Using very thin cathodes (0.05μm) The batteries were cycled over 45,000 cycles with very limited capacity loss. After 45,000 cycles, 95% of original capacity remained.

The electric vehicle markets in 685 units in 2008 is expected to reach 32.7 million cars shipped for the year 2015, in response to growing demand for energy renewable powered vehicle that reduces the total cost of ownership for a significant amount. The lithium ion batteries used in mobile phones and personal computers, and cordless power tools have proven the technology to power electric vehicles. The first electric vehicles are being used as city cars, which demonstrates the viability of electric cars. Think in Norway is a viable manufacturing operation and 1,000 cars on the road. Markets ups are great for hybrid and electric vehicles powered by renewable energy systems.

Table of Contents:
Figure ES-1
2e Aptera Pre-Production Model

Figure ES-2

REVA Electric Car

Table ES-3

Driving Electric Vehicle Market 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 penetration electric vehicles

Automotive and market forecasts light trucks, the percentage

2009-2015

Figure ES-6

A whole the world of retail electric vehicles Forecasts, Dollars,

2009-2015

Table ES-7

Reasons for the prognosis aggressive Markets for electric vehicles

Table ES-7 (Continued)

Reasons for aggressive forecast for electric vehicle markets

Table ES-8

New infrastructure, new approaches to leadership, brought by

Electric Vehicles

1. ELECTRIC VEHICLE Description of the market and market dynamics
1.1 Automotive Industry

1.1.1 Economic Forces Electric Vehicle

1.1.2 cars represent 20% of U.S. The Economic retail spending

1.1.3 Electric Vehicle Design Careers

1.2 EV electric vehicle

1.2.1 EVs profitable in the city of Terms

1.2.2 Lithium Ion Battery car

1.2.3 Partnerships public-private

1.3 lithium ion battery market destination

1.3.1 Project Better Place and Renault-Nissan Alliance

1.3.2 target market largest Shipping Industry

1.3.3 Electricity Market Services Grid

1.3.4 Portable Power Markets, tools Electrical

1.4 Lithium Ion Battery Technology Transport Industry Target Market

1.5 Energy Storage for the network of Stabilisation

1.5.1 Energy storage local benefits for power companies

1.6 Printed Circuit applications require on-energy Battery Board

1.6.1 Thin-film vs. print Batteries

1.7 Intelligent Buildings

1.7.1 Permanent power wireless sensor

1.8 Insurance battery / Potential Hazards

1.9 Thin Film Solid State Battery Construction

1.10 Battery is an electrochemical device

1.11 of the battery depends on the chemical energy

1.11.1 Characteristics of battery cells

1.11.2 The batteries are designed differently for different applications

2. ACTIONS OF THE ELECTRIC VEHICLE MARKET AND forecasts market
2.1 Economic Electric Vehicle Market Driving Forces

2.1.1 Forms of Nanotechnology Base for lithium ion batteries

2.1.2 Lithium ion batteries

2.2 The market shares of electric vehicles

2.2.1 Daimler safety cell

Daimler 2.2.2 Smart Car

BYD 2.2.3

2.2.4 Consider environmental vehicles

2.2.5 TH! Safety concept NK city

2.2.6 Think Power overnight Top-Up

2.2.7 GM Volt

2.2.8 GM Opel

2.2.9 Tesla Motors

2.2.10 i MiEV Electric Car Mitsubishi

Mitsubishi 2.2.11

Subaru 2.2.12 Electric vehicles in Japan in 2009

BMW 2.2.13

2.2.14 REVA electric car

2.2.15 Progress Ford electric vehicle technology

2.2.16 The Ford agreement with Utility Industry

Toyota Prius hybrid 2.2.17

Nissan 2.2.18

Phoenix Motorcars 2.2.19

2.2.20 Fuji Heavy Industries / Subaru

Chrysler 2.2.21

2.3 Forecasts Electric Vehicle Market

2.4 Charging the battery electric vehicle

2.4.1 Change of electric vehicles in The Fly

2.5 2008 / 2009 General Auto Sales

2.5.1 Korean cars in the U.S. succeed

2.5.2 The total number of vehicles sold / GM Profile

2.5.3 GM vehicle sales and global market share – 2007

2.5.4 Sales in the automotive world for 2007

2.5.5 Deepening Slowdown

2.6 electric vehicles as an elegant golf cart

2.7 Worldwide Market Nanotechnology Thin Film-ion batteries Lithium Driving Forces

2.7.1 Market Driving Forces

2.7.2 Nanotechnology is the basis of lithium ion batteries

2.7.3 Competitors

2.8 The actions of lithium ion battery market

2.8.1 ExxonMobil Affiliate in Japan / Tonen Chemical

2.8.2 Patent A123Systems Nanophosphate ™ Technology Lithium ion battery

Lithium ion 2.9 Market Forecasts battery

2.10 electric vehicles and hybrid vehicles actions of lithium ion battery market

BYD 2.10.1

Johnson Controls-Saft 2.10.2

Technologies Saft battery 2.10.3

A123Systems 2.10.4 32 Series Automotive Class Lithium Ion ™ cells:

2.10.5 NEC and Nissen

LG Chem 2.10.6

EnerDel 2.10.7

2.10.8 Competition

2.11 electric and hybrid vehicles lithium-ion market forecasts Battery

2.11.1 Increased target market, the movie The Thin Transport Industry advanced lithium-ion battery for EV battery market film thin polymer lithium ion battery car

3. PRODUCT DESCRIPTION electric vehicle
BMW 3.1

3.1.1 BMW Second Version of the Electric Mini

BYD 3.2 / MidAmerican Energy Holdings

3.2.1 Warren Buffet – MidAmerican, a collection of Electric Utilities in Midwest

BYD 3.2.2 Plug-in Hybrid Powertrain Flexibility

BYD E6 Electric Car and F6 3.2.3

BYD E6 Electric 3.2.4 Specifications Vehicle

3.3 Tesla Motors

3.3.1 Electric Roadster by Tesla Motors

3.3.2 Tesla Motors next generation model S

Telsa 3.3.3 Battery Pack and Frame

3.4 Daimler AG

3.4.1 Characteristics of Daimler's Smart car model

3.4.2 Mercedes electric car Daimler (2010)

Think 3.5

3.5.1 A123Systems / GE Production Contract for Think Electric Vehicles Norwegian

3.5.2 Think Power overnight Top-Up

3.5.3 TH! Safety concept NK city

3.5.4 TH! NK environmentally friendly City

3.5.5 thinking overall

3.6 General Motors

3.6.1 Volt GM

3.6.2 Challenge to battery developers GM

GM and A123Systems 3.6.3 Co-Development Cell Lithium-Ion Battery for Chevrolet Volt

GM Cadillac 3.6.4 Electric vehicles

3.6.5 GM / Opel

GM Chevrolet Equinox 3.6.6 Vehicles fuel cell

3.7 miles XS500 Electric Car

3.8 Mitsubishi i MiEV electric car sold 1 years ahead of schedule in Japan

3.8.1 Mitsubishi i MiEV Electric Car Specifications

3.8.2 Prices Mitsubishi i MiEV Electric Car

3.8.3 i MiEV electric car Mitsubishi

3.8.4 Car Mitsubishi i MiEV Electric 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 sold over 1 year ahead of schedule

3.9 Fuji Heavy Industries / Subaru R1e electric car Source: Subaru.

3.9.1 Subaru EVs for sale in Japan in 2009

3.9.2 Source G4e Subaru: Subaru.

3.9.3 NEC / Fuji Heavy Industries / Subaru

3.9.4 NEC / Fuji Heavy Industries and Subaru thin film batteries flat

3.10 Electric Supercar by Hybrid Technologies

PML Mini Electric 3.11

3.12 Nissan electric car (2010-2012)

3.12.1 NEC / Nissan batteries low cost lithium-manganese

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 High School students of Napoleon

3.19 Toyota Prius Hybrid

Toyota iQ Microcar 3.19.1

3.19.2 Toyota FT-EV electric battery Vehicle

Ford 3.20

Chrysler 3.21

3.21.1 Chrysler Town & Country EV

Chrysler 3.21.2 Revolution personal mobility

3.21.3 Circuit Chrysler Dodge EV

EV Chrysler Jeep ® Wrangler Unlimited 3.21.4

3.22 Phoenix

Shelby Supercars 3.23

Aptera 3.24

4. ELECTRIC VEHICLE TECHNOLOGY
Phoenix Motorcars 4.1 Altairnano Lithium Titanate Battery Technology

Altairnano 4.1.1 Battery Comparison

4.1.2 Lead Battery Technology

4.1.3 Nickel Metal Hydride (NiMH)

Ion 4.1.4 lithium

4.2 The globalization model for electric cars

4.2.1 Better Place electric vehicle network

Better Place is 4.2.2 partnering with AGL Energy in Australia

4.3 Fuel Cell EFOY Pro Kit charging electric vehicles

4.3.1 Fuel Cells SFC Smart

4.3.2 Citycom of CityEL AG

4.4 Seller lithium ion battery Strategy

4.4.1 Characteristics of rechargeable batteries Lithium

4.5 Challenges in the battery design

4.5.1 Advanced lithium-ion batteries Requirements

4.6 Ion seller Lithium battery positioning

4.6.1 High quality, volume manufacturing service

4.7 Applications of Lithium Ion Battery

4.8 mobile phone industry

4.8.1 Nanowires

Battery 4.8.2 Thin Film Chemical Enabling

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 Deficiencies in lithium ion battery

4.9.2 Loading

4.9.3 Applications

4.9.4 Costs

Variants Lithium Cell 4.10 Chemistry

Lithium-ion 4.10.1

4.10.2 polymer lithium-ion

4.10.3 Other variants of the cathode of lithium chemistry

LiCoO2 lithium cobalt 4.10.4

4.10.5 LiMn2O4 lithium manganese

Lithium nickel LiNiO2 4.10.6

4.10.7 Lithium (NCM) Nickel Manganese Cobal – Li (NiCoMn) O2

4.10.8 lithium iron phosphate LiFePO4

4.11 operating performance of the cell can be tuned

Lithium Metal Polymer 4.12

4.12.1 lithium sulfur Li2S8

4.12.2 Chemical alternative anode

4.13 ExxonMobil affiliate, Tonen Chemical based polyethylene, porous Film

Alternate Manufacturing Cymbet 4.14

4.15 Thin Film Batteries packaging

4.16 ITN Energy Systems fibrous substrates, PowerFiber

ITN 4.16.1 Sensors

4.17 Cell construction

Impact of nanotechnology 4.18

4.19 film batteries fine

4.19.1 Thin Film timescales and costs of the battery

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. ELECTRIC VEHICLE COMPANY PROFILES

5.1 A123 Systems

A123 Systems 5.1.1 Income

5.1.2 Registration Statement A123Systems IPO Initial

A123 Systems batteries 5.1.3 Benefits

A123 Systems 5.1.4 Competitive advantage

A123 Systems Strategy 5.1.5

5.1.6 A123Systems and GE

A123 Hymotion Acquisition 5.1.7

5.1.8 Procter & Gamble and A123 Systems Collaborate Duracell

5.1.9 Cobasys and Systems A123

Aperta 5.2

5.3 Better Place model

BMW 5.4

BYD 5.5

5.5.1 Warren Buffett buys 10 percent stake in the Chinese automaker BYD Battery

5.6 E-One Moli Energy Group

Ener1 5.7

5.7.1 Ener1 third quarter of 2008 revenue

5.7.2 Positioning Technology Ener1 originally started by Argonne National Laboratory

Ener1 acquires Enertech 5.7.3 Korean leader lithium-ion battery Cell Producer

5.7.4 Ener1 / Enertech specializes in producing large format flat ("prismatic") cells

5.7.5 EnerDel Operations

Ford 5.8

Ford Electric Vehicle Positioning 5.8.1

Sustainability Strategy 5.8.2 Full Ford

5.8.3 Ford partnership with Southern California Edison for electricity

5.8.4 Ford partnership with Johnson Controls-Saft Batteries for Thin Film

5.8.5 Partnership with Ford Utility Industry

5.8.6 Building a business model

5.8.7 The governments of Japan, China, Korea and India represent EV Research Funding

5.8.8 Energy Future Vision Ford

5.9 Fuji Heavy Industries / Subaru

Subaru 5.9.1 America

5.9.2 Income 2008 Subaru of America

General Motors 5.10

5.10.1 General Motors factory in Michigan to build packages Battery

5.10.2 GM's 2008 global sales of 8.35 million vehicles

5.10.3 GM continues its growth in emerging markets

5.10.4 GM's North American regional performance

5.10.5 GM Europe

5.10.6 GM believes strongly in the electrification of the automobile

Miles 5.11 Electric Vehicles

5.11.1 Zero Emissions Miles, full electric car

Johnson Controls-Saft 5.12

Petrochemical 5.13 LG

LG Chem 5.13.1

5.14 Mitsubishi

5.14.1 Proof of the Zero Emissions Fleet Electric Vehicle iMiev

5.15 NEC / Nissan batteries low cost lithium-manganese

5.15.1 NEC Lamilion Energy

5.16 Panasonic / Sanyo

Phoenix Motorcars 5.17

Phoenix Motorcars 5.17.1 Client: Maui Electric

Phoenix MC 5.17.2 All electrical, light commercial vehicles

REVA 5.18

5.18.1 REVA Car Features

REVA 5.18.2 proven product worldwide

Saft 5.19

Technologies Saft battery 5.19.1

5.19.2 Saft Industrial Battery Group (IBG)

Specialty 5.19.3 Saft Battery Group (SBG)

5.19.4 Saft Rechargeable Battery Systems (RBS)

5.19.5 Saft Research and Development

5.19.6 U.S. Johnson Controls-Saft Advanced Battery Consortium (USABC)

5.20 Samsung

Shelby SuperCars 5.21

5.21.1 Sheffield International Finance Corporation

SSC 5.21.2 Monthly Bulletin

5.22 Tesla Motors

5.22.1 Battery Packs Tesla

Tesla Roadster 5.22.2

Tesla 5.22.3 restructuring

Think 5.23

Think 5.23.1 capacity manufacturing

Think 5.23.2 employees to stop their dismissals

Think 5.23.3 Confirms Interim Financing – Private equity firm Ener1 Group is the main investor

5.23.4 Kleiner Perkins and Rockport Capital, are two major Cleantech investors launch joint venture with the Norwegian company vehicle Think electric

5.23.5 TH! NK city EV shockproof and highway-certified

Think 5.23.6 strategic partnership with the giant General Electric Energy

Think 5.23.7 collaboration with Porsche Consulting

5.24 Toyota

5.25 ZENN Motor Company

ZENN Motor 5.25.1 Strategic Energy Storage Partner, EEStor

List of Tables and Figures
Figure ES-1

2e Aptera Pre-Production Model

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

World Electric Vehicles

On The Road Market shares, units, 2009

Figure ES-5

Worldwide penetration of electric vehicles

Automobiles and light trucks Market Forecasts, Percent,

2009-2015

Figure ES-6

A whole world of retail electric vehicles 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 forms driving, brought by

Electric Vehicles

Table 1-1

Key features used to compare batteries Rechargeable

Figure 1-2

BMW 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 forces driving

Table 2-2

Advantage Energy thin film batteries

Figure 2-3

Pre-Production Model Aptera 2e

Table 2-4

Electric Vehicle Market Driving Forces

Table 2-4 (Continued)

Driving Electricity Market Vehicle Forces

Figure 2-5

Worldwide Electric Vehicles

On The Road Market shares, units, 2009

Table 2-6

Worldwide sales of electric vehicles market shares

Units of On the Road

2009 11

Figure 2-7

Mitsubishi i MiEV Electric Car – Red

Figure 2-8

REVA Electric Car

Figure 2-9

Worldwide penetration of electric vehicles automotive

and market forecasts light trucks, the percentage

2009-2015

Table 2-10

Shipments in all the world of electric vehicles (EV) Unit

and the Automotive Retail Market and Forecasts

Penetration Analysis, 2009-2015

Figure 2-11

A whole world of retail electric vehicles Forecasts, Dollars,

2009-2015

Table 2-12

The worldwide shipments of electric vehicles (EV) Unit

and market forecasts Automotive retail and

Analysis of Penetration, 2009-2015

Table 2-13

Shipments worldwide electric vehicle (EV) Unit

and market forecasts retail Automotive Analysis of Penetration,

2009-2015

Table 2-14

Worldwide automotive and small light trucks

Size Electric Vehicle (EV) market forecasts, dollars, 2009-2015

Table 2-15

A whole world of small electric vehicles (EV) Market

Forecasts, Units, 2009-2015

Table 2-16

A whole world of small cars and light trucks, small electric

Vehicle (EV) Market Forecasts Automotive retail

Units and Dollars, 2009-2015

Table 2-17

A whole Size Sedan worldwide automotive and light truck

Electric Vehicle (EV) market forecasts retail dollars, 2009-2015

Table 2-18

Size Sedan Truck World Automotive and Light

Electric Vehicle (EV) The transfer of Retail Market Forecasts, Units,

2009-2015

Table 2-19

Cars & Trucks Sedan World Electric Light Size

Vehicle (EV) and unit shipments Market Automotive

Forecasts retail units and dollars, 2009-201

Table 2-20

Reasons for aggressive market forecast electric vehicles

Table 2-21

New infrastructure, new modes of conduct, brought by

Electric Vehicles

Table 2-22

Lithium-Ion battery market forces driving

Table 2-23

Advantage Energy Battery thin film

Figure 2-24

Worldwide the thin film lithium ion batteries advanced

Shipments, market shares, 2008 dollars

Table 2-25

Worldwide Lithium-Ion Advanced Thin Film Battery

Shipments, market shares, dollars 2008

Figure 2-26

Worldwide the thin film lithium ion batteries advanced

Shipments, Market Shares, Dollars, 2009-2015

Figure 2-27

Worldwide lithium-ion and lithium ion advanced

Battery market forecasts, Automotive, Tools Power,

Mains, and PC Card, dollars, 2009-2015

Figure 2-28

Worldwide Lithium-Ion Advanced Thin Film automotive battery

Shipments, Market Shares, Dollars, 2008

Figure 2-29

Worldwide Lithium-Ion Film Advanced automotive batteries fine

Shipments, market shares, 2008 dollars

Figure 2-30

Worldwide the film thin advanced lithium ion battery

Shipments, market shares, dollars, 2009-2015

Figure 2-31

A worldwide Thin Film Lithium-ion battery advanced

Shipments, market shares, Units, 2009-2015

Figure 2-32

Worldwide the thin film of advanced lithium ion battery

Shipments, Market Shares, units and dollars, 2009-2015

Table 2-33

Marketing of the challenges of the automotive,

Truck and Bus thin film battery Industry

Table 2-34

Battery thin film integrated Personal Systems energy transport

Figure 3-1

BMW Mini E electric car powered by a rechargeable

Lithium Ion Battery

Figure 3-2

BYD E6 Electric Car

Figure 3-3

BYD F3DM Front

Figure 3-4

BYD F3DM rear view

Figure 3-5

BYD F3 Moon Roof

Table 3-6

BYD Plug-in chain flexibility hybrid drive

Figure 3-7

BYD E6 Electric Car

Figure 3-8

BYD F6

Fig 3-9

Tesla Motors Roadster

Figure 3-10

Tesla Motors Roadster and Power couple Chart

Figure 3-11

Model S by Tesla Motors

Figure 3-12

Smart Car Daimler AG

Figure 3-13

Daimler Smart Car

Figure 3-14

Mercedes Daimler electric

Figure 3-15

Prince Albert of Monaco to drive TH! NK city

Figure 3-16

Driving TH! NK city

Figure 3-17

Think of the console controller

Figure 3-18

Think open

Figure 3-19

Think OX

Figure 3-20

Think City Electric Vehicles

Table 3-21

TH! NK City Specifications

Table 3-22

Think in the town of standard equipment:

Table 3-22 (Continued)

Think City Standard Equipment:

Table 3-23

TH! NK city features

Figure 3-24

Think Electric Cars Offer

Figure 3-25

General Motors Chevrolet Volt – Front View

Figure 3-26

General Motors Chevrolet Volt – Viewing Angle

Figure 3-27

General Motors Chevrolet Volt – Rear

Figure 3-28

General Motors Chevrolet Volt

Figure 3-29

Cadillac GM Electric Vehicle

Figure 3-30

General Motors EV1 electric car

Figure 3-31

Miles XS500 Electric Car

Figure 3-32

I MiEV Mitsubishi Electric Car – in traffic

Figure 3-33

Mitsubishi i MiEV Electric Car – Battery Packaging

Figure 3-34

i MiEV Mitsubishi Electric Car – Red

Figure 3-35

Mitsubishi i MiEV Electric Car – Grey

Figure 3-36

Mitsubishi i MiEV Electric Car – Interior

Figure 3-37

Mitsubishi i MiEV Electric Car – Features

Figure 3-38

Mitsubishi i MiEV Electric Car

Figure 3-39

Mitsubishi i MiEV Electric Car Engine Interior

Design of the drive train

Figure 3-40

Fuji Heavy Industries / Subaru R1e electric car

Figure 3-41

Subaru Electric Car Station Plug R1e

Figure 3-42

Subaru Electric Car G4e

Figure 3-43

Technologies Hybrid Electric Supercar

Figure 3-44

PML Electric Mini

Figure 3-45

Test Nissan electric car

Figure 3-46

REVA Electric Car

Figure 3-47

ZENN Car

Figure 3-48

ZENN electric car plan

Figure 3-49

ZENN car parked on the street

Figure 3-50

ZENN Electric Car – Grey 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 Prius Hybrid

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, EV The Chrysler 200C

Table 3-61

Chrysler Electric Vehicle Positioning

Table 3-62

Chrysler EV electric vehicle

Figure 3-63

Chrysler Electric Vehicles

Figure 3-64

Dodge EV Circuit

Table 3-65

Dodge EV Circuit Functions

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

Figure 3-70

Shelby Supercars

Figure 3-71

Shelby Supercars – Raised Door

Figure 3-72

2e Aptera Pre-Production Model

Figure 3-73

Models Pre-2e Aptera

Figure 3-74

Aperta tricycle

Figure 3-75

Aperta Three Wheels – Rear View

Figure 4-1

Altairnano battery performance:

Figure 4-2

EFOY Pro Kit for Fuel Cell Electric Vehicles

Figure 4-3

Electric City Car – Red

Figure 4-4

Electric City Car – Yellow

Figure 4-5

Electric City Car – Open

Figure 4-6

Electric City Car – Dashboard

Figure 4-7

The Smart fuel cell (SFC) of the source with energy The Open StartLab

Table 4-8

Challenges in lithium-ion battery design

Table 4-9

Benefits of lithium ion batteries

Source: YouTube.

Table 4-10

Thin Film Battery Unique Properties

Table 4-11

Comparison of performances of the battery

Table 4-12

Battery Benchmarking

Table 4-13

Thin films for advanced batteries

Table 4-14

Thin Film Battery Technology

Table 4-15

Thin Film Battery / lithium Air Applications

Figure 4-16

Polymer film substrate profiles of thin, flexible battery

Figure 4-17

Design alternatives thin film batteries Rechargeable

Table 5-1

Batteries A123 Systems Benefits

Table 5-2

Competitive Positioning Systems A123

Table 5-2 (Continued)

Competitive Positioning Systems A123

Table 5-2 (Continued)

Competitive Positioning Systems A123

Figure 5-3

Aptera vehicle early drawings

Figure 5-4

Assembly Installation: Vista, CA

Figure 5-5

Aperta compound Fund: Carlsbad CA

Figure 5-6

EnerDel Operations

Figure 5-7

EnerDel Lithium Power Systems

Figure 5-8

USABC EnerDel Lithium Power Contracts

Figure 5-9

Think EnerDel lithium power Projct

Table 5-10

Ford Recommendations Energy key Government Actions

Figure 5-11

Sanyo Battery 2020 Objectives

Figure 5-12

REVA Electric Car

Figure 5-13

Saft H1 2008 Revenue

Figure 5-14

Shelby Supercars

Figure 5-15

Think Auto Production Fund

Figure 5-16

TH! NK North America

Figure 5-17

Consolidated sales of Toyota vehicles

Figure 5-18

Toyota Strategy

Figure 5-19

Toyota Car

Advances in electric vehicle technology brings advances that provide customers with personal transportation options never before available. Electric vehicles are real. They come in a variety of styles and abilities. The feature control BMW and driving style. The Chinese BYD Hybrid company backed by Warren Buffet has features that allow flexible plug-in hybrid powertrain. It has a battery-electric mode. The manner in series hybrid has a motor that drives a generator to recharge the batteries, as a rangeextender. There is a way parallel hybrid in which the engine and motor both provide propulsive power.

Electric vehicles represent a quantum change in transport. Design paths are different, the opportunities are important as a large change occurs in the vehicle are the basic functions and how the vehicle. Car companies that take advantage of market opportunity to switch to a new Paradyne is likely to succeed. There are others who merely seek to migrate existing styles and designs for electric vehicles. Buggy whips come to mind.

The ability to connect a car in a backyard hardened set of batteries charged with a solar panel provides relief from fuel costs. To have a second car, powered by a battery promises to provide a new growth industry. Banks can lend in the car and solar panel. Solar panels are developing the ability to modulate in which can be installed quickly and supply power for the car.

Investment in electric vehicle infrastructure is a priority. With countries seeking to invest in infrastructure that will provide economic growth, it is clear that the special infrastructure for electrical vehicles to stimulate private sector growth. electric vehicle market segment is positioned for growth for vehicles used for local driving.

Worldwide nanotechnology thin film lithium ion battery are prepared to achieve significant growth as more and more units capable of achieving up electrical energy efficiently to vehicles. Less expensive Lithium ion batteries can take advantage of economies of scale and the proliferation of devices in a wide range of applications. According to Susan Eustis, lead author of study, "Economies of scale take the lithium ion battery nanotechnology developments necessary to make lithium ion batteries to competition. Nanotechnology research provides lithium ion resolves the issues prepared by the need to store renewable energy. The lithium-ion battery switch price reductions are prepared to drive market adoption by making economic factors. "

Nanotechnology Laboratory results are being translated into commercial products. The process of translation science of nanotechnology in lithium ion batteries thin film is expected to is continuous. The progress of science in the laboratory have only begun to be translated to life outside the lab, with a long way to go in improving the functioning of Lithium ion batteries.

Unlike any other battery technology, thin film batteries show the solid state high life cycle. Cathodes with very thin (0.05μm) batteries have cycled over 45,000 cycles with little loss of capacity. After 45,000 cycles, 95% of original capacity remained.

Market for electric vehicles to 685 units in 2008 is expected to reach 32.7 million cars sent in 2015 in response to growing demand for renewable energy powered vehicle that reduces the total cost of ownership for a significant amount. Batteries Lithium-ion batteries used in mobile phones and PC, and cordless power tools have proven the technology to power electric vehicles. The first electric vehicles being used as city cars, which demonstrates the viability of electric cars. Think of Norway has a manufacturing operation viable and 1,000 cars on the road. Large emerging markets are for hybrid and electric vehicles powered by renewable energy systems.

Table of Contents:
Figure ES-1
2e Aptera Pre-Production Model

Figure ES-2

REVA Electric Car

Table ES-3

Electric Vehicle Market Driving Forces

Table ES-3 (Continued)

Electricity Market Driving Vehicle Forces

Figure ES-4

Worldwide Electric Vehicles

On The Road Market shares, units, 2009

Figure ES-5

Worldwide penetration of electric vehicles

The Automotive and Light Truck market forecasts, the percentage

2009-2015

Figure ES-6

Worldwide Electric Vehicle Retail Forecasts, Dollars,

2009-2015

Table ES-7

Reasons aggressive forecast for the electric vehicle market

Table ES-7 (Continued)

Reasons for the prognosis aggressive energy Electric Vehicle Market

Table ES-8

New infrastructure, new modes of conduct, brought by

Vehicles Electrical

1. ELECTRIC VEHICLE Market Overview and market dynamics
1.1 Automotive Industry

1.1.1 Vehicle Electrical economic forces

1.1.2 cars represent 20% of U.S. The Economic retail spending

1.1.3 Electrical Design Careers Vehicle

1.2 EV electric vehicle

1.2.1 EVs profitable in the city of Terms

1.2.2 Lithium ion battery car

1.2.3 Public-Private Partnerships

1.3 lithium ion battery market destination

1.3.1 Project Better Place and Renault-Nissan Alliance

1.3.2 largest target market, Shipping Industry

1.3.3 Electricity Market Services Grid

1.3.4 Market power portable power tools

1.4 Technology Lithium ion battery target market Transportation Industry

1.5 Storage energy for the network of Stabilisation

1.5.1 Energy storage benefits to local power companies

1.6 Applications Printed Circuit require on-board battery power

1.6.1 Thin-film vs. print Batteries

1.7 Intelligent Buildings

1.7.1 Power Permanent wireless sensor

1.8 Insurance battery / Potential Hazards

1.9 Thin film solid state construction Battery

1.10 of the battery is an electrochemical device

1.11 of the battery depends on the chemical energy

1.11.1 Characteristics of battery cells

1.11.2 The batteries are designed differently for different applications

2. ACTIONS OF VEHICLE MARKET AND ELECTRICAL market forecasts
2.1 Electric Vehicle market economic Driving Forces

2.1.1 Nanotechnology is the base of lithium ion batteries

2.1.2 Lithium ion batteries

2.2 Electric Vehicle Market Shares

2.2.1 Cell Daimler Security

Daimler Smart 2.2.2

BYD 2.2.3

2.2.4 Consider environmental vehicles

2.2.5 TH! NK city concept of security

2.2.6 Power Think overnight Top-Up

2.2.7 GM Volt

2.2.8 GM Opel

2.2.9 Tesla Motors

I MiEV electric 2.2.10 Mitsubishi Car

Mitsubishi 2.2.11

2.2.12 Subaru EVs for sale in Japan in 2009

BMW 2.2.13

2.2.14 REVA electric car

2.2.15 Progress Ford electric vehicle technology

2.2.16 The Ford agreement with utility industry

Toyota Prius hybrid 2.2.17

Nissan 2.2.18

Phoenix Motorcars 2.2.19

2.2.20 Fuji Heavy Industries / Subaru

Chrysler 2.2.21

2.3 Forecasts Electric Vehicle Market

2.4 Charging the battery electric vehicle

2.4.1 Change of electric vehicles in The Fly

2.5 2008 / 2009 General Auto Sales

2.5.1 Korean cars in the U.S. succeed

2.5.2 The total number of vehicles sold / GM Profile

2.5.3 GM vehicle sales and global market share – 2007

2.5.4 Sales in the automotive world for 2007

2.5.5 Deepening Slowdown

2.6 Electric vehicles as an elegant golf cart

Worldwide Nanotechnology 2.7 thin film battery market Lithium ion Driving Forces

2.7.1 Market Driving Forces

2.7.2 Nanotechnology is the basis of lithium ion batteries

2.7.3 Competitors

2.8 The actions of lithium ion battery market

2.8.1 ExxonMobil Affiliate in Japan / Tonen Chemical

2.8.2 A123Systems Nanophosphate technology patent for Lithium Ion Battery ™

Lithium ion 2.9 Market Forecasts battery

2.10 Electric Vehicle hybrid vehicles and lithium ion battery stocks market

BYD 2.10.1

Johnson Controls-Saft 2.10.2

Technologies Saft battery 2.10.3

A123Systems 2.10.4 32 Series Automotive Class Lithium Ion ™ cells:

2.10.5 NEC and Nissen

LG Chem 2.10.6

EnerDel 2.10.7

2.10.8 Competition

2.11 Electric and hybrid vehicles Forecasts of the lithium ion battery market

2.11.1 largest target market, the movie The Thin Transport Industry advanced lithium-ion battery market EV-Ion batteries thin-film batteries and lithium polymer Automotive

3. ELECTRICAL VEHICLE PRODUCT DESCRIPTION
3.1 BMW

Second Version 3.1.1 BMW Electric Mini

BYD 3.2 / MidAmerican Energy Holdings

3.2.1 Warren Buffet – MidAmerican, a collection electric utilities in the Midwest

BYD 3.2.2 Plug-in Hybrid Powertrain Flexibility

3.2.3 BYD E6 Electric Car and F6

BYD E6 Electric Vehicle Specifications 3.2.4

3.3 Tesla Motors

3.3.1 Electric Roadster by Tesla Motors

Tesla Motors New Model 3.3.2 Generation S

Telsa battery and Framework 3.3.3

3.4 Daimler AG

3.4.1 Characteristics of Daimler's Smart car model

3.4.2 Daimler Mercedes electric car (2010)

Think 3.5

3.5.1 A123Systems / GE Production Contract for Think Electric Vehicles Norwegian

3.5.2 Power Think overnight Top-Up

3.5.3 TH! Safety concept NK city

3.5.4 TH! NK environmentally friendly City

3.5.5 Thinking Globally

3.6 General Motors

3.6.1 GM Volt

3.6.2 Challenge to the battery developers GM

GM and A123Systems 3.6.3 Development Co-Cell Lithium-Ion Battery for Chevrolet Volt

Cadillac GM Electric Vehicle 3.6.4

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 on which sold 1 years ahead of schedule in Japan

3.8.1 Specifications Mitsubishi i MiEV Electric Car

3.8.2 Prices Mitsubishi i MiEV Electric Car

3.8.3 i MiEV Electric Car Mitsubishi

3.8.4 Car Electric Mitsubishi i MiEV Coming to Europe

3.8.5 Mitsubishi electric car i MiEV Production Plans

3.8.6 Specifications of i MiEV electric car

3.8.7 i MiEV electric car sold over 1 year before schedule

3.9 Fuji Heavy Industries / Subaru R1e electric car Source: Subaru.

3.9.1 Electric vehicles Subaru sales in Japan in 2009

3.9.2 Source G4e Subaru: Subaru.

3.9.3 NEC / Fuji Heavy Industries / Subaru

3.9.4 NEC / Fuji Heavy Industries / Subaru Thin Film Form Low Battery

3.10 Electric Supercar by Hybrid Technologies

Electric Mini for PML 3.11

3.12 Nissan electric car (2010-2012)

3.12.1 NEC / Nissan batteries low cost lithium-manganese

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 Prius Hybrid

Toyota iQ Microcar 3.19.1

3.19.2 Vehicles Toyota FT-EV electric battery

Ford 3.20

Chrysler 3.21

Chrysler 3.21.1 Town & Country EV

Chrysler 3.21.2 Revolution personal mobility

3.21.3 Circuit Chrysler Dodge EV

3.21.4 Chrysler Jeep ® Wrangler Unlimited EV

3.22 Phoenix

Shelby Supercars 3.23

Aptera 3.24

4. ELECTRIC VEHICLE TECHNOLOGY
4.1 Motorcars Altairnano Phoenix Lithium Titanate Battery Technology

4.1.1 Comparison Altairnano battery

4.1.2 Lead Battery Technology

4.1.3 Nickel Metal Hydride (NiMH)

4.1.4 Lithium ion

4.2 The globalization model for electric cars

4.2.1 Better Place electric vehicle network

4.2.2 Better Place is partnering with AGL Energy in Australia

4.3 EFOY fuel cell vehicle Pro Kit electric load

4.3.1 SFC Smart Fuel Cell

4.3.2 Citycom of CityEL AG

4.4 Seller lithium ion battery Strategy

4.4.1 Features rechargeable lithium batteries

4.5 Challenges in the battery design

4.5.1 Ion Batteries Advanced lithium Requirements

4.6 Lithium-Ion battery seller Positioning

4.6.1 High quality, volume manufacturing service

4.7 The applications of lithium ion batteries

4.8 mobile phone industry

4.8.1 Nanowires

4.8.2 of the battery Enabling Thin Film Chemical

4.8.3 The Cathode

4.8.4 Solid-state devices provide more energy density

4.9 Advantages of lithium ion batteries

4.9.1 Deficiencies in lithium ion battery

4.9.2 Loading

4.9.3 Applications

4.9.4 Costs

4.10 Lithium Cell Variants Chemistry

Lithium-ion 4.10.1

4.10.2 polymer lithium-ion

Variants 4.10.3 Other Chemical lithium cathode

LiCoO2 lithium cobalt 4.10.4

4.10.5 LiMn2O4 lithium manganese

Lithium nickel LiNiO2 4.10.6

4.10.7 Lithium (NCM) Nickel Manganese Cobal – Li (NiCoMn) O2

4.10.8 Lithium Iron Phosphate LiFePO4

4.11 operating performance of the cell can be tuned

4.12 for lithium metal polymer

4.12.1 lithium sulfur Li2S8

4.12.2 Alternative Anode Chemistry

4.13 ExxonMobil affiliate, Tonen Chemical polyethylene based, porous film

Alternate Manufacturing Cymbet 4.14

4.15 thin film batteries Packaging

4.16 ITN Energy Systems fibrous substrates, PowerFiber

ITN 4.16.1 Sensors

4.17 Cell construction

Impact of nanotechnology 4.18

4.19 Thin Film Batteries

4.19.1 Thin Film timescales and costs of the battery

4.19.2 high power and energy density

4.19.3 high rate capability

4.20 Comparison of rechargeable battery performance

4.21 Film polymer substrate

4.22 Micro Battery Solid Electrolyte

5. ELECTRIC VEHICLE COMPANY PROFILES

5.1 Systems A123

A123 Systems 5.1.1 Income

5.1.2 Registration Statement A123Systems IPO

5.1.3 A123 Systems batteries Benefits

A123 Systems 5.1.4 Competitive advantage

A123 Systems Strategy 5.1.5

A123Systems and GE 5.1.6

5.1.7 Acquisition A123 Hymotion

5.1.8 Procter & Gamble's Duracell and A123 Systems Collaborate

5.1.9 Cobasys and A123 Systems

Aperta 5.2

5.3 place best model

BMW 5.4

BYD 5.5

5.5.1 Warren Buffett buys 10 percent stake in Chinese manufacturer BYD Battery

5.6 E-One Moli Energy Group

Ener1 5.7

Ener1 5.7.1 Third Quarter 2008 earnings

Ener1 5.7.2 Positioning Technology originally initiated by Argonne National Laboratory

Ener1 acquires Enertech 5.7.3 Korea's leading cell lithium-ion battery manufacturer

5.7.4 Ener1 / Enertech specializes in producing large format flat ("prismatic" Cells)

EnerDel 5.7.5 Operations

Ford 5.8

5.8.1 Ford electric vehicle positioning

Sustainability Strategy 5.8.2 Full Ford

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 model

5.8.7 The governments of Japan, China, Korea and India Significantly Research Funding EV

5.8.8 Energy Future Vision Ford

5.9 Fuji Heavy Industries / Subaru

Subaru of America 5.9.1

Subaru 5.9.2 American Income 2008

General Motors 5.10

5.10.1 General Motors plant in Michigan to build battery packs

5.10.2 GM's 2008 global sales of 8.35 million vehicles

5.10.3 GM continues its growth in emerging markets

GM's North American performance 5.10.4 regional

5.10.5 GM Europe

5.10.6 GM believes strongly in the electrification of the automobile

5.11 Miles Electric Vehicles

5.11.1 Zero Emissions Miles, full electric car

Johnson Controls-Saft 5.12

LG Petrochemical 5.13

LG Chem 5.13.1

5.14 Mitsubishi

5.14.1 Proof of the Zero Emissions Fleet Electric Vehicle iMiev

NEC 5.15 / Nissan inexpensive battery manganese Lithium

5.15.1 NEC Lamilion Energy

5.16 Panasonic / Sanyo

Phoenix Motorcars 5.17

Phoenix Motorcars 5.17.1 Client: Maui Electrical

Phoenix MC 5.17.2 All electrical, light commercial vehicles

REVA 5.18

REVA cars 5.18.1 Features

REVA 5.18.2 proven product worldwide

Saft 5.19

Technologies Saft battery 5.19.1

Saft Industrial Battery Group 5.19.2 (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 U.S. Johnson Controls-Saft Advanced Battery Consortium (USABC)

5.20 Samsung

Shelby SuperCars 5.21

5.21.1 Sheffield International Finance Corporation

SSC 5.21.2 Monthly Newsletter

5.22 Tesla Motors

5.22.1 Battery Packs Tesla

Tesla Roadster 5.22.2

Tesla 5.22.3 restructuring

Think 5.23

Think 5.23.1 manufacturing capacity

Think 5.23.2 employees to stop their dismissals

Think 5.23.3 Confirms Interim Financing – Private equity firm Ener1 Group is the largest investor

Kleiner Perkins 5.23.4 and Rockport Capital, are two major Cleantech investors launch joint venture with Norwegian company Think electric vehicles

5.23.5 TH! NK city EV shockproof and highway-certified

Think 5.23.6 strategic partnership with energy giant General Electric

5.23.7 Think collaboration with Porsche Consulting

5.24 Toyota

5.25 ZENN Motor Company

ZENN Motor 5.25.1 Energy strategic partner storage, EEStor

List of Tables and Figures
Figure ES-1

2e Aptera Pre-Production Model

Figure ES-2

REVA Electric Car

Table ES-3

Electric Vehicle Market Driving Forces

Table ES-3 (Continued)

Electricity Market Vehicle Driving Forces

Figure ES-4

Worldwide Electric Vehicles

On Road Market shares, units, 2009

Figure ES-5

Worldwide penetration of electric vehicles

Automotive and market forecasts light trucks, the percentage

2009-2015

Figure ES-6

A whole world of retail electric vehicles Forecasts, Dollars,

2009-2015

Table ES-7

Reasons for the prognosis aggressive market for electric vehicles

Table ES-7 (Continued)

Reasons for the forecast aggressive market for electric vehicles

Table ES-8

New infrastructure, new management arrangements brought by

Vehicles Electrical

Table 1-1

Key features used to compare the rechargeable batteries

Figure 1-2

BMW Mini E electric car powered by a rechargeable battery

Lithium Ion Battery

Table 1-3

Examples of electric vehicles hybrids

Figure 1-4

Typical Structure of a thin film solid state battery

Table 1-5

Features cell battery

Table 2-1

Lithium-Ion battery market forces driving

Table 2-2

Advantage Energy thin film batteries

Figure 2-3

2e Aptera Pre-Production Model

Table 2-4

Electric Vehicle market forces driving

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 sales of electric vehicles market shares

Units of On the Road

2009 11

Figure 2-7

Mitsubishi i MiEV Electric Car – Red

Figure 2-8

REVA Electric Car

Figure 2-9

Worldwide penetration of electric vehicles Automotive

and market forecasts light trucks, the percentage

2009-2015

Table 2-10

Shipments worldwide vehicle electric (EV) Unit

and market forecasts Automotive retail and

Penetration Analysis, 2009-2015

Figure 2-11

A whole world of retail electric vehicles Forecasts, Dollars,

2009-2015

Table 2-12

Shipments worldwide electric vehicle (EV) Unit

and the Automotive Retail Market and Forecasts

Penetration Analysis, 2009-2015

Table 2-13

Shipments worldwide electric vehicle (EV) Unit

and the Automotive Retail Market Forecasts, Analysis Penetration

2009-2015

Table 2-14

Worldwide automotive and small light trucks

Vehicle Size electric (EV) market forecasts, dollars, 2009-2015

Table 2-15

A whole world of small electric vehicles (EV) Market

Forecasts, Units, 2009-2015

Table 2-16

A whole world of small cars and light trucks, small electric

Vehicle (EV) Market Forecasts Automotive retail

Units and Dollars, 2009-2015

Table 2-17

Worldwide Size Automotive and Light Truck Sedan

Electric Vehicle (EV) market forecasts retail dollars, 2009-2015

Table 2-18

Worldwide Size Sedan automotive and light truck

Electric Vehicle (EV) The transfer of Retail Market Forecasts, Units,

2009-2015

Table 2-19

Sedan worldwide car and truck size Electric Light

Vehicle (EV) Shipments and Market Unit Automotive

Forecasts retail units and dollars, 2009-201

Table 2-20

Reasons for aggressive forecast for vehicles Electrical Markets

Table 2-21

New infrastructure, new modes of conduct, brought by

Electric Vehicles

Table 2-22

Lithium Ion Battery Market Driving Forces

Table 2-23

Advantage Energy Battery thin film

Figure 2-24

Worldwide the thin film lithium ion batteries advanced

Shipments, Market Shares, 2008 dollars

Table 2-25

Worldwide the thin film lithium ion batteries advanced

Shipments, market shares, 2008 dollars

Figure 2-26

Worldwide the thin film lithium ion batteries advanced

Shipments, market shares, dollars, 2009-2015

Figure 2-27

A whole world of advanced lithium-ion and lithium-ion

Battery market forecasts, Automotive, Tools Electrical

Mains, and PC Card, dollars, 2009-2015

Figure 2-28

Lithium-Ion World of advanced thin film batteries Automotive

Shipments, market shares, 2008 dollars

Figure 2-29

Worldwide Film Thin Lithium Ion Advanced Automotive Battery

Shipments, market shares, 2008 dollars

Figure 2-30

Worldwide the thin film lithium ion advanced Battery

Shipments, market shares, Dollars, 2009-2015

Figure 2-31

Worldwide the thin film lithium ion Advanced batteries

Shipments, market shares, Units, 2009-2015

Figure 2-32

Worldwide ion thin film advanced lithium batteries

Shipments, market shares, units and dollars, 2009-2015

Table 2-33

Marketing Challenges the automotive,

Truck and Bus thin film battery Industry

Table 2-34

Integrated Battery Personal Systems thin-film energy transport

Figure 3-1

BMW Mini E electric car powered by a rechargeable

Battery Lithium ion

Figure 3-2

BYD E6 Electric Car

Figure 3-3

BYD F3DM Front

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 pair and power graph

Figure 3-11

Model S by Tesla Motors

Figure 3-12

Smart Car Daimler AG

Figure 3-13

Daimler Smart Car

Figure 3-14

Mercedes Daimler electric

Figure 3-15

Prince Albert of Monaco to drive TH! NK city

Figure 3-16

Driving TH! NK city

Figure 3-17

Think on the console controller

Figure 3-18

Think open

Figure 3-19

Think OX

Figure 3-20

Think City Electric Vehicles

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 Features city

Figure 3-24

Think electric cars offer

Figure 3-25

General Motors Chevrolet Volt – Front View

Figure 3-26

General Motors Chevrolet Volt – Viewing Angle

Figure 3-27

General Motors Chevrolet Volt – Rear

Figure 3-28

General Motors Chevrolet Volt

Figure 3-29

Cadillac GM Electric Vehicle

Figure 3-30

General Motors EV1 electric car

Figure 3-31

Miles XS500 Electric Car

Figure 3-32

Mitsubishi i MiEV Electric Car – in traffic

Figure 3-33

Mitsubishi i MiEV Electric Car – Battery Packaging

Figure 3-34

i MiEV Electric Car Mitsubishi – Red

Figure 3-35

Mitsubishi i MiEV Electric Car – Grey

Figure 3-36

Mitsubishi i MiEV Electric Car – Interior

Figure 3-37

Mitsubishi i MiEV Electric Car – Features

Figure 3-38

Mitsubishi i MiEV Electric Car

Figure 3-39

Mitsubishi i MiEV Electric Car Engine Interior

Design of the drive train

Figure 3-40

Fuji Heavy Industries / Subaru car R1e electric

Figure 3-41

Subaru Electric Car Station Plug R1e

Figure 3-42

Subaru Electric Car G4e

Figure 3-43

Technologies Hybrid Electric Supercar

Figure 3-44

PML Electric Mini

Figure 3-45

Test drive Nissan's electric

Figure 3-46

REVA Electric Car

Figure 3-47

ZENN Car

Figure 3-48

Electric car ZENN plane

Figure 3-49

ZENN car parked on the street

Figure 3-50

ZENN Electric Car – Grey 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 Prius Hybrid

Figure 3-57

Toyota FT-EV electric vehicle battery

Figure 3-58

Toyota Electric Car

Table 3-59

Chrysler ENVI electric Minivan Features

Figure 3-60

Interior concept car, EV The Chrysler 200C

Table 3-61

Chrysler Electric Vehicle Positioning

Table 3-62

Chrysler EV electric vehicle

Figure 3-63

Chrysler Electric Vehicles

Figure 3-64

Dodge EV Circuit

Table 3-65

Dodge EV Circuit Functions

Figure 3-66

Chrysler Jeep ® Wrangler Unlimited EV

Figure 3-67

Jeep ® EV Wrangler Unlimited Features

Figure 3-68

Phoenix Motorcars SUT Truck

Figure 3-69

Phoenix Motorcars vehicle SUV

Figure 3-70

Shelby Supercars

Figure 3-71

Shelby Supercars – Raised Door

Figure 3-72

2e Aptera Pre-Production Model

Figure 3-73

Models Pre-2e Aptera

Figure 3-74

Aperta tricycle

Figure 3-75

Aperta Three Wheels – Rear View

Figure 4-1

Altairnano battery performance:

Figure 4-2

EFOY Pro Kit for Fuel Cell Electric Vehicles

Figure 4-3

Electric City Car – Red

Figure 4-4

Electric City Car – Yellow

Figure 4-5

Electric City Car – Open

Figure 4-6

Electric City Car – Dashboard

Figure 4-7

The Smart fuel cell (SFC) of the source with energy The Open StartLab

Table 4-8

Challenges in the battery Lithium-ion Design

Table 4-9

Benefits of lithium ion batteries

Source: YouTube.

Table 4-10

Thin Film Battery Unique Properties

Table 4-11

Comparison of performances of the battery

Table 4-12

Comparison Battery growth

Table 4-13

Thin films for advanced batteries

Table 4-14

Thin Film Battery Technology

Table 4-15

Thin Film Battery / lithium Air Applications

Figure 4-16

Polymer film substrate profiles of thin, flexible battery

Figure 4-17

Design alternatives thin film rechargeable batteries

Table 5-1

Batteries A123 Systems Benefits

Table 5-2

A123 Systems C

About the Author

Minal H
SEO
vinod.minal@gmail.com
http://www.aarkstore.com

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HD 2-Pc Lens Kit Telephoto & Wide Angle Lens Set For Panasonic Lumix DMC-LX100


HD 2-Pc Lens Kit Telephoto & Wide Angle Lens Set For Panasonic Lumix DMC-LX100


$24.95


Hi-Def 2-Pc Lens Kit Telephoto & Wide Angle Lens Set For Panasonic Lumix DMC-G7H


Hi-Def 2-Pc Lens Kit Telephoto & Wide Angle Lens Set For Panasonic Lumix DMC-G7H


$24.93


2-Pc Kit Telephoto & Wide Angle HD Lens Set for Panasonic Lumix DMC-GF7 DMC-GF7K


2-Pc Kit Telephoto & Wide Angle HD Lens Set for Panasonic Lumix DMC-GF7 DMC-GF7K


$24.93


(2-Pc HD Lens Kit) Telephoto + Wide Angle Lens Set For Panasonic Lumix DMC-GM5


(2-Pc HD Lens Kit) Telephoto + Wide Angle Lens Set For Panasonic Lumix DMC-GM5


$24.83


2-Pc Lens Set Hi Def Telephoto & Wide Angle Lens Kit For Panasonic Lumix DMC-GM1


2-Pc Lens Set Hi Def Telephoto & Wide Angle Lens Kit For Panasonic Lumix DMC-GM1


$24.73


NEW Canon Nikon Sigma Panasonic FujiFilm Lens 58mm Macro Close Up Filter Kit Set


NEW Canon Nikon Sigma Panasonic FujiFilm Lens 58mm Macro Close Up Filter Kit Set


$23.97


NEW Canon Nikon Sigma Panasonic FujiFilm Lens 58mm Macro Close Up Filter Kit Set


NEW Canon Nikon Sigma Panasonic FujiFilm Lens 58mm Macro Close Up Filter Kit Set


$23.97


2Pc Lens Set For Panasonic HC-X920K HC-X920 HD Wide Angle & Telephoto Lens Kit


2Pc Lens Set For Panasonic HC-X920K HC-X920 HD Wide Angle & Telephoto Lens Kit


$23.95


2-Pc Kit Pro HD Wide Angle & Telephoto Lens Set for Panasonic DMC-FZ40 DMC-FZ45


2-Pc Kit Pro HD Wide Angle & Telephoto Lens Set for Panasonic DMC-FZ40 DMC-FZ45


$23.89