Product Synopsis
WinterGreen Research announces that it has a new study on Lithium-Ion Battery, Lithium Polymer Battery, Thin Film Battery And Zinc Air Battery Market Shares and Forecasts, Worldwide, 2011-2017. These products power cell phones, portable electronics, and laptops. They promise to power electric vehicles. They are the base for smarter computing. The 2011 study has 716 pages, 254 tables and figures. Lithium-Ion batteries are evolving. Lithium thin film solid state technology provides vast improvements in energy density and creates units that can be recharged 40,000 times, up from 200 times for traditional batteries.
Li-Ion (Lithium-Ion) batteries are a type of rechargeable battery. Lithium ion batteries are one of the most common rechargeable batteries in portable electronics. Lithium ion batteries have one of the best energy densities, no memory effect, and a slow loss of charge when not in use, in comparison with other chemistries of rechargeable batteries.
Lithium ion batteries are environmentally safe because there is no free lithium metal. They come in a variety of sizes such as AA, AAA, RCR123A, 18650, 9V, 2032 button cells, and more.
Fabrication methods have not yet scaled to large format batteries. This is because the cost of vacuum deposition has been prohibitive. Researchers are working to develop an alternative deposition process. It has the ability to make nanostructured electrolyte and electrode materials with chemistries that work at scale that is the challenge.
Every big automaker, battery maker, national lab and university materials-science department in the world has a team of PhDs whose lives consist of testing countless combinations of elements in an effort to build a thin film battery. There is a fundamental challenge in front of every battery organization to evolve efficient solid state batteries.
In considering the possible application of different batteries, it is important to know how much energy can be delivered at a specified discharge rate or discharge power. Graphs of the energy/cm2 can be delivered at a given power density for the lithium and lithium-ion batteries.
A low temperature deposition process for thin film batteries enables use of flexible, polymer foil as the substrate. This technology largely reduces the production cost of the thin film batteries. Successful development of a low temperature manufacturing process (<350ºC) opened up the possibility of using a polymer substrate such as Kapton, thereby significantly reducing manufacturing cost, while gaining flexibility and significantly reducing the overall thickness of the cells.
Lithium-Ion battery market driving forces include business inflection that is achieved by delivering electric vehicle and smart computing technology that supports entirely new capabilities. Sensor networks are creating demand for thin film solid state devices. Vendors doubled revenue and almost tripled production volume from first quarter. Multiple customers are moving into production with innovative products after successful trials.
A strong business pipeline has emerged with customer activity in all target markets. Vendors expect full-year revenue to more than double in 2011. The market focus is shifting from ramping capacity to driving manufacturing efficiencies and achieving margin improvement, indicating increasing market maturity.
The worldwide demand for energy is steadily increasing, doubling every 15 years. The major effort is to sustain growth in the electricity supply without causing irreversible harm to the environment. Solar energy has rapidly grown as a clean, renewable alternative to limited fossil fuels. Recognition of the need to reduce reliance on coal and fossil fuels is driving interest in solar energy.
The need to reduce reliance on coal and fossil fuels is intuitive. The science agrees - climate change is a reality. Citizens want to do something about climate change. Countries wish to not have dependence on foreign suppliers.
Improved energy density is a significant factor to be considered in development of thin film battery materials. Thin film lithium batteries have the potential to reach an energy density as high as 1000 Wh/l. Cell phones and laptops using these thin film batteries will be capable of running up to four times longer than on other lithium ion batteries having the same physical size.
Lithium-ion categories: are cobalt, manganese, iron-phosphate, polymer and nickel manganese-cobalt. These are the main types of commercialized battery in China. It remains to be seen how thin film batteries utilize these or other materials.
EXECUTIVE SUMMARY
Lithium-Ion Battery Market Driving Forces
Comparison Of Battery Performances
Lithium-Ion Batteries
Lithium Ion Battery Market Shares
Lithium Ion Battery Market Forecasts
Lithium-Ion Battery Market Description and Market
1. LITHIUM ION BATTERY MARKET DESCRIPTION AND MARKET DYNAMICS
1.1 Lithium Ion Batteries
1.1.1 Lithium Ion Battery Target Markets
1.2 Lithium-Ion Battery Electric Vehicle Target Markets
1.2.1 NEC / Nissan Alliance
1.2.2 Largest Target Market, The Transportation Industry
1.2.3 Electric Grid Services Market
1.2.4 Portable Power Tools
1.2.5 World Economy Undergoing A Transformation
1.2.6 Transportation
1.2.7 Electric Grid Services
1.2.8 Commercial Applications For Advanced Batteries
1.2.9 Challenges in Battery and Battery System Design
1.3 Types of Batteries
1.3.1 Lead-Acid Batteries
1.3.2 Nickel-Based Batteries
1.3.3 Conventional Lithium-ion Technologies
1.3.4 Advanced Lithium-ion Batteries
1.3.5 Thin Film Battery Solid State Energy Storage
1.3.6 Ultra capacitors
1.3.7 Fuel Cells
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 / Energy Harvesting
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. LITHIUM-ION BATTERY, LITHIUM POLYMER, THIN FILM AND ZINC AIR BATTERY MARKET SHARES AND MARKET FORECASTS
2.1 Lithium-Ion Battery Market Driving Forces
2.1.1 Polymer Film Substrate for Thin Flexible Profile
2.1.2 Comparison Of Battery Performances
2.1.3 Lithium-Ion Batteries
2.2 Lithium Ion Battery Market Shares
2.2.1 Samsung SDI
2.2.2 Panasonic Rechargeable Lithium Ion Batteries
2.2.3 LG Chem
2.2.4 BYD 2-11
2.2.5 BAK 2-11
2.2.6 B&K Customer Base
2.2.7 Sony 2-12
2.2.8 Saft 2-13
2.2.9 Toshiba
2.2.10 DIEHL & Eagle Picher
2.3 Lithium Ion Battery Market Forecasts
2.3.1 Lithium-ion Battery Target Market Segments
2.3.2 Cell Phone Battery Market Forecasts, Dollars, Worldwide, 2011-2017
2.3.3 Lithium-Ion and Lithium Based Small Electronics Battery Markets Forecasts
2.3.4 Camera / Power Tool Battery Market Forecasts
2.3.5 PC / Notebook / Tablet Battery Market Forecasts
2.3.6 Lithium-Ion and Lithium Based Small Electronics Battery Markets Forecasts
2.4 Lithium-Ion Cells For Electric Vehicles
2.4.1 Automotive Demand Rapidly Growing
2.4.2 Lithium-Ion Battery (LIB) Key Element Of EV Propulsion
2.4.3 Lithium-Ion Battery Production Capacity For New Materials Manufacture
2.4.4 BYD
2.4.5 BYD Auto Business
2.4.6 BYD / Daimler AG / BYD Company Limited and Daimler AG Joint Venture Contract to Develop Electric Vehicle
2.4.7 BYD / Samsung / LG
2.4.8 Bosch and Samsung
2.4.9 LG
2.4.10 Tata
2.4.11 Tata / Bentley
2.4.12 NEC
2.4.13 Nissan / NEC
2.4.14 NEC / Nissan Battery Businesses
2.4.15 Planar Energy / General Motors
2.4.16 Li-Tec Strategic Partners: Evonik and Daimler
2.4.17 Toyota
2.4.18 Argonne National Laboratory
2.4.19 A123 2-44
2.4.20 A123 MIT Carbon Nanotube Electrodes
2.4.21 A123 MIT Very High-Power Lithium-Ion Batteries
2.4.22 Johnson Controls-/ Saft Advanced Power Solutions
2.4.23 Ford 2-47
2.4.24 Ford, Compact Power (CPI), a Subsidiary of LG Chem, BYD
2.4.25 BMW, Johnson Controls,-Saft Advanced Power Solutions -
2.4.26 BAK / BMW
2.5 Electric Vehicle Battery Initiatives
2.6 Rechargeable Battery Market
2.6.1 Production Dilemma
2.6.2 Nanotechnology Thin Film and Lithium-Ion Batteries
2.7 Silver Nano plates Silicon Strategy Shows Promise For Batteries
2.7.1 Argonne Scientists Watch Nanoparticles
2.8 Thin Film Battery Market Driving Forces
2.8.1 Thin Film Battery High Power & Energy Density, Specific Power & Energy
2.8.2 Thin Film Battery Technology Market Shares
2.8.3 Lithium-ion Product Definitions
2.8.4 Thin Film Batteries Deposited Directly Onto Chips Or Chip Packages2-
2.9 Thin Film Batteries Market Shares
2.9.1 Infinite Power Solutions -
2.9.2 Cymbet Corporation -
2.9.3 Planar Energy Devices -
2.9.4 Poly Plus
2.9.5 Johnson / Excellatron
2.9.6 Eveready Battery Company / Blue Spark Technologies
2.9.7 Solicore
2.9.8 Leonhard Kurz / PolyIC
2.9.9 ITN Solid-State Lithium Battery
2.9.10 Nokia to add NFC
2.9.11 Architecture Of The Prieto Battery Has Nanowires To Make Up The Anode
2.9.12 Printed Electronics
2.10 Thin Film Batteries Market Forecasts
2.10.1 Thin Film Batteries Deposited Directly Onto Chips Or Chip Packages
2.10.2 Thin Film, Solid State Printed Electronics Battery Market:- Bigger than the Silicon Chip
2.10.3 Remote Sensors
2.10.4 Sensor Network Thin Film Battery Forecasts
2.11 Nanotechnology Next Generation Systems
2.12 RFID and Small Thin Film Batteries
2.13 Nanotechnology to Drive Thin Film Lithium-Ion Batteries Market
2.13.1 Arotech Corporation Lithium-Ion, Lithium Polymer, Zinc Air
2.13.2 ITN Solid-State Lithium Battery
2.13.3 Infinite Power Solutions -
2.13.4 Cymbet Corporation -
2.13.5 Planar Energy Devices -
2.14 Thin-film Battery Market Forecasts
2.15 Lead-Acid Battery Manufacturers
2.16 Electrochromics
2.17 Printed Electronics / Silicon Chips
2.18 Li-Ion (Lithium-Ion) Battery Prices
2.18.1 Lithium Ion Battery Prices
2.19 Geographical Region Analysis
2.19.1 Geographical Region Analysis
2.19.2 Japan
2.19.3 Korea
2.19.4 Chinese Lithium Ion Battery Revenue
2.19.5 A123 Micro-Hybrid Battery Applications
2.19.6 Saft International Presence
3. LITHIUM-ION BATTERY AND LITHIUM BATTERY PRODUCT DESCRIPTION
3.1 NEC / Nissan / AESC (Automotive Energy Supply Corporation)
3.2 Toshiba
3.3 Sony
3.3.1 Sony Thin Film And Lithium Ion Batteries For Electronics
3.4 ThinkPad Edge Thin Film And Lithium Ion Batteries For RFID Tags To Micro Medical Devices
3.5 Prieto Battery
3.5.1 Prieto Battery Reducing The Thickness Of The Electrode Results In Lower Energy Capacity And Shorter Operating Time
3.5.2 Prieto Battery Nanowires Make Up The First Key Piece Of The Battery, The Anode
3.5.3 Proposed architecture of the Prieto battery
3.6 Saft Lithium-thionyl Chloride (Li-SOCl2)
3.7 Enerdel
3.8 Electric Vehicle Thin Film And Lithium Ion Batteries
3.9 Johnson Controls-Saft Advanced Power Solutions
3.9.1 Hybrid And Electric Vehicles Market: An Industry Comes To Life
3.9.2 Johnson Controls-Saft Rapidly growing demand
3.10 Saft 3-18
3.10.1 Saft Hybrid Marine Propulsion
3.10.2 Saft Total Battery Reliability
3.10.3 Saft Worldwide Reputation
3.11 A123 Systems
3.12 BYD / Samsung
3.12.1 BYD EV
3.12.2 BYD Company Limited and Daimler AG Joint Venture Contract to Develop Electric Vehicle
3.12.3 BYD / Warren Buffett / Berkshire Hathaway
3.13 Panasonic Rechargeable Lithium Ion Batteries
3.14 Li-Tec Battery GmbH Joint Venture of Evonik Industries AG and Daimler AG
3.14.1 Li-Ion Fab I
3.14.2 Li-Tec Strategic Partners: Evonik and Daimler
3.15 Samsung Lithium Ion Battery
3.16 SB LiMotive / Bosch and Samsung SDI
3.17 NEC / Nissan
3.17.1 NEC Automotive Lithium-Ion Rechargeable Battery
3.17.2 NEC / Nissan / AESC (Automotive Energy Supply Corporation)
3.17.3 Nissan / Toda Kogyo
3.18 Hitachi Vehicle Energy, Ltd.
3.19 Matsushita / Panasonic / Sanyo
3.20 ReVolt Technologies
3.20.1 ReVolt Technologies Button Cell Air Electrode
3.20.2 ReVolt Technology Partners With BASF
3.21 LG
3.21.1 LG Lithium-ion Cylindrical Battery
3.21.2 LG Lithium-ion Polymer Battery
3.21.3 LG Lithium-ion Cylindrical Battery
3.21.4 Lithium-ion Polymer Battery
3.21.5 LG Lithium-ion Polymer Battery
3.21.6 LG Lithium-ion Cylindrical Battery
3.22 BYD Lithium-ion Battery
3.23 Thunder Sky Battery Limited
3.24 Mitsubishi Motors / Litcel
3.25 GS Yuasa Battery / Mitsubishi
3.26 GS Yuasa Battery / Honda
3.27 Leo Motors Tesla Roadster Fuel Cell Batteries
3.28 Panasonic EV Energy (PEVE)
3.29 Degussa AG / Enax
3.30 Oak Ridge Micro-Energy, Inc.
3.30.1 Oak Ridge Micro-Energy Manufacturing Process
3.31 Cymbet Energizing Innovation
3.31.1 Cymbet Products
3.31.2 Cymbet Rechargeable EnerChips and Effective Capacity
3.31.3 Cymbet Development Support
3.31.4 Cymbet Solid State Energy Storage for Embedded Energy, Power Back-up and Energy Harvesting
3.31.5 Cymbet Energy Harvesting
3.31.6 Cymbet Zero Power Devices
3.31.7 ComtexCymbet EnerChip™ Thin-Film Batteries
3.32 Infinite Power Solutions (IPS)—
3.32.1 Infinite Power Solutions High-Volume Production Line for TFBs -
3.32.2 Infinite Power Solutions Solid-State, Rechargeable Thin-Film Micro-Energy Storage Devices
3.32.3 Infinite Power Solutions IPS THINERGY® MEC Products
3.32.4 Infinite Power Solutions THINERGY MEC
3.32.5 Infinite Power Solutions, Inc. Recharge From A Regulated 4.10 V Source
3.32.6 Infinite Power Solutions, Inc. SRAM Backup Guidelines
3.32.7 Infinite Power Solutions, Inc. SRAM Backup Power Solution
3.32.8 Infinite Power Solutions Recharging THINERGY Micro-Energy Cells
3.32.9 Infinite Power Solutions Charging Methods
3.32.10 Infinite Power Solutions, Inc. THINERGY MECs
3.32.11 MicroGen Systems and Infinite Power Solutions Wireless Sensor Network (WSN)
3.32.12 Maxim Integrated, Infinite Power Solutions IC to Integrate All Of The Power-Management Functions For Ambient Energy Harvesting
3.32.13 Maxim Integrated Products (Nasdaq:MXIM) MAX17710 IC Integrates Power-Management
3.32.14 Maxim / Infinite Power Solutions, Inc. (IPS) THINERGY(R) Solid-State, Rechargeable MEC Battery Products
3.32.15 Maxim introduces MAX17710 PMIC :: Uniquely enables Energy Harvesting with THINERGY MECs
3.33 Planar
3.33.1 Planar Energy Devices -
3.33.2 Planar Energy’s Solid State Batteries New Deposition Process
3.33.3 Planar Energy PrintGuide to Recent Battery Advances
3.33.4 Planar Lithium Manganese Dioxide Nanotechnology
3.33.5 Planar Energy Devices PowerPlane MXE Module
3.34 Altair Nanotechnologies
3.35 Axion Power International (AXPW.OB)
3.36 Energy Harvesting Devices
3.37 Researchers at MIT
3.37.1 Cymbet's EnerChip and Energy Harvesting Solutions
3.37.2 Cymbet EnerChip Solid State Battery Energy Harvesting (EH) / TI's LaunchPad Development Kit
3.37.3 Micropelt Energy Harvesting:
3.37.4 Millennial Net Wireless Sensor Network:
3.38 ITN's Lithium Technology
3.38.1 ITN Lithium Electrochromics
3.38.2 ITN Solid-State Lithium Battery
3.38.3 ITN Lithium Air Battery
3.39 Solicore 3-150
3.39.1 Solicore RFID
3.39.2 Solicore Commercializes Its Revolutionary Battery Technology 3-150
3.40 Rogers 3-151
3.41 PS iTHINERGY ADP
3.41.1 IPS and ITT
3.42 Shenzhen B&K Rechargable Battery
3.43 Danionics
3.43.1 Danionics’ Batteries
3.44 Diehl & Eagle-Picher
3.45 Advanced Battery Factory
3.46 E2-Tec
3.47 Edan Technology
3.48 GS Yuasa
3.49 Polyplus
3.49.1 PolyPlus Lithium water
3.49.2 PolyPlus Lithium / Air Couple
3.50 Johnson Research Product Development
3.51 Excellatron
3.51.1 Excellatron Polymer Film Substrate for Thin Flexible Profile
3.51.2 Excellatron Thin Film Batteries Deposited On A Thin Polymer Substrate
3.51.3 Excellatron High Rate Capability
3.51.4 Excellatron Thin Film Battery High Power & Energy Density, Specific Power & Energy
3.51.5 Excellatron Polymer Film Substrate for Thin Flexible Profile
3.51.6 Excellatron Unique Proprietary Passivation Barrier and Packaging Solution
3.51.7 Excellatron High Capacity Thin Film Batteries
3.51.8 Excellatron Next Generation Of Lithium Batteries
3.51.9 Excellatron High Rate Deposition Process (Plasma Enhanced Chemical Vapor Deposition)
3.52 NEC
3.52.1 NEC Radio tags
3.52.2 NEC RFID Tag
3.52.3 NEC Nanotechnology Thin And Flexible Organic Radical Battery (ORB)
3.53 Fuel Cell Batteries
3.54 GMB Power
3.55 Power Air Disposable Zinc Fuel Cell
3.56 Umicore Thin Film Materials
3.57 BrightSource Energy Molten Salt
4. LITHIUM ION BATTERY TECHNOLOGY
4.1 Lithium Ion Batteries
4.1.1 Thin Film Battery Timescales and Costs
4.2 Battery Breakthroughs
4.2.1 MIT Thin Film Battery Researchers
4.2.2 A123 MIT Very High-Power Lithium-Ion Batteries
4.2.3 A123 MIT Carbon Nanotube Electrodes
4.2.4 ORNL Scientists Reveal Battery Behavior At The Nanoscale
4.2.5 Rice University and Lockheed Martin Scientists Discovered Way To Use Silicon To Increase Capacity Of Lithium-Ion Batteries
4.2.6 Rice University50 Microns Battery
4.2.7 Next Generation Of Specialized Nanotechnology
4.3 Silicon Strategy For Batteries
4.4 Zinc Air Batteries And Fuel Cells
4.5 John Bates Patent: Thin Film Battery and Method for Making Same
4.5.1 J. B. Bates,a N. J. Dudney, B. Neudecker, A. Ueda, and C. D. Evans Thin-Film Lithium and Lithium-Ion Batteries
4.6 MEMS Applications
4.6.1 MEMS Pressure Sensors
4.7 c-Si Manufacturing Developments
4.7.1 Wafers
4.7.2 Texturization
4.7.3 Emitter Formation
4.7.4 Metallization
4.7.5 Automation, Statistical Process Control (SPC), Advanced Process Control (APC)
4.7.6 Achieving Well-controlled Processes
4.7.7 Incremental Improvements
4.8 Ascent Solar's WaveSol™ Flexible And Lightweight Thin-Film PV Technology
4.9 Liquid radio
4.10 TAU battery
4.11 Flexible Energy Storage Devices Based On Nanocomposite Paper
4.12 Transition Metal Oxides, MnO
4.13 Battery Cell Construction
4.14 Impact Of Nanotechnology
4.14.1 Nanotechnology
4.14.2 Why Gold Nanoparticles Are More Precious Than Pretty Gold
4.14.3 Lithium Ion Cells Optimized For Capacity
4.14.4 Flat Plate Electrodes
4.14.5 Spiral Wound Electrodes
4.14.6 Multiple Electrode Cells
4.14.7 Fuel Cell Bipolar Configuration
4.14.8 Electrode Interconnections
4.14.9 Sealed Cells and Recombinant Cells
4.14.10 Battery Cell Casing
4.14.11 Button Cells and Coin Cells
4.14.12 Pouch Cells
4.14.13 Prismatic Cells
4.15 Naming Standards For Cell Identification
4.15.1 High Power And Energy Density
4.15.2 High Rate Capability
4.16 Comparison Of Rechargeable Battery Performance
4.17 Polymer Film Substrate
4.18 Micro Battery Solid Electrolyte
5. LITHIUM-ION BATTERY COMPANY PROFILES
5.1 A123
5.1.1 A123 Transportation Industry Is The Largest Target Market
5.1.2 A123 Cylindrical Batteries
5.1.3 A123 Energy Storage Solutions That Improve The Reliability And Efficiency Of The Electric Power Grid
5.1.4 A123 Supports Grid Operators
5.1.5 A123 Cathode Costs, Powder, Manufacturing, Foil, and Additives 5-7
5.2 Advanced Battery Factory
5.3 Arotech
5.3.1 Arotech's New SWIPES Product Named One of the U.S. Army's Ten Greatest Inventions of 2011
5.3.2 Arotech's Battery and Power Systems Division
5.3.3 Electric Fuel Battery Corporation
5.4 Altair Nanotechnologies Inc.
5.4.1 Altair Nanotechnologies Reports Second Quarter 2011 Revenue
5.5 ATL
5.6 Avnet Abacus
5.7 Axion
5.8 BAK
5.9 B&K
5.9.1 B&K Customer Base
5.10 Bosch
5.10.1 Bosch Group’s Solar Energy Division
5.10.2 Bosch Malaysia Marketing
5.11 BYD
5.11.1 BYD Revenue
5.11.2 BYD Auto Company
5.11.3 BYD e6 Taxi Project
5.11.4 BYD / Berkshire Hathaway
5.12 Citic Guoan
5.12.1 MGL One Of The Biggest Cathode Material (LiCoO2) Manufacturers in China
5.12.2 MGL Total Battery Production Capacity
5.12.3 MGL Company Profile
5.13 Cymbet
5.13.1 Cymbet Team:
5.13.2 Cymbet Investors:
5.13.3 Cymbet Investors
5.13.4 Cymbet Partners, Sales and Distribution:
5.13.5 Cymbet Manufacturing:
5.13.6 Cymbet to Open World's Highest Volume Solid-State Battery Manufacturing Facility
5.13.7 Cymbet Partnering with X-FAB
5.13.8 Cymbet / X-FAB, Inc.
5.13.9 Cymbet Expanding in Minnesota
5.13.10 Cymbet / LEDA
5.13.11 Cymbet / Avnet Abacus
5.13.12 Cymbet EnerChip™ EP Universal Energy Harvesting Evaluation Kit
5.13.13 Cymbet Secures $31 Million in Private Financing
5.14 Danionics
5.15 Delphi
5.15.1 Delphi Revenue 2010
5.16 Dust Networks
5.16.1 Dust Networks Self-Powered IPV6 Wireless Sensor Network
5.17 Infinite Power Solutions, Inc.
5.18 Eagle Pither
5.19 Edan Technology
5.19.1 Edan Technology Corporate Description
5.19.2 Edan Technology Customers
5.19.3 Edan Technology Partners
5.20 Enerdel
5.20.1 Enerdel Contract with Russia's Mobile GTES
5.21 EnOcean GmbH
5.22 Evonik Industries AG / Li-Tec Storage Technology
5.23 Excellatron
5.24 GMB Power
5.25 GS Nanotech
5.26 Gee ES Nanotech
5.26.1 Gee-Es Nanotech Centre for Research and Production of microelectronics
5.27 Geely 5-86
5.28 GS Caltex / GS Yuasa
5.28.1 GS Battery (USA) Inc.
5.29 Huanyu
5.30 Infinite Power Solutions
5.30.1 Infinite Power Solutions Solid-State, Thin-Film Batteries
5.30.2 Infinite Power Solutions Micro-Energy Storage Devices
5.30.3 Infinite Power Solutions Battery Applications
5.30.4 Infinite Power Solutions And Tokyo Electron Device Global Distribution Agreement
5.30.5 Infinite Power Solutions Raises $20.0m In Series C Financing
5.31 Inventec
5.32 ITN Lithium Technology
5.32.1 ITN’s Lithium EC sub-Division Focused On Development And Commercialization
of EC Thin-Films, and EC-Enabled Windows
5.32.2 ITN’s SSLB Division Thin-Film Battery Technology
5.32.3 ITN Lithium Air Battery
5.32.4 ITN Fuel Cell
5.32.5 ITN Thin-film Deposition Systems
5.32.6 ITN Real Time Process Control
5.32.7 ITN Plasmonics
5.33 Konka
5.34 Johnson Controls Products & Solutions
5.34.1 Johnson Controls Power Solutions
5.34.2 Johnson Controls Hybrid And Electric Vehicles Market: An Industry Comes To Life
5.35 Johnson Research
5.35.1 Johnson Research Environmental Energy Products
5.35.2 Johnson Research / Excellatron Solid State
5.36 KSW Microtec
5.36.1 KSW Microtec Efficient Flexible, Producer of RFID Components
5.37 Leo Motors
5.38 Li-Tec
5.39 LG Chem
5.39.1 LG Chem Produces Lithium-Ion And Lithium-Ion Polymer Rechargeable Batteries
5.39.2 LG Batteries
5.40 Lishen
5.41 Makita
5.42 Matsushita / Panasonic / Sanyo / Sanyo Solar
5.42.1 Panasonic Corporation Revenue
5.42.2 Sanyo
5.42.3 SANYO 2011 Sales Of Solar Photovoltaic Systems
5.42.4 Panasonic Full Year Revenue
5.42.5 Panasonic / Sanyo Solar Ark
5.42.6 Panasonic /Sanyo Solar Stone Brewing Company Reference Account
5.42.7 Panasonic / Sanyo Solar lumenHAUS Reference Account
5.42.8 InSpec / SANYO
5.42.9 SANYO and InSpec Group Partnership Generates Multiple Solar Installations in Oregon
5.43 Maxcell
5.44 Maxim / Dallas (MXIM:Nasdaq)
5.44.1 Maxim acquires Energy Measurement Company Teridian
5.44.2 Maxim / Dallas Semiconductor Revenue
5.44.3 Maxim / Dallas Semiconductor Revenue
5.44.4 Maxim / Dallas Semiconductor Principal Competitors
5.44.5 Maxim / Dallas Semiconductor
5.44.6 Maxim / Zilog
5.44.7 Maxim / Vitesse
5.45 McNair
5.45.1 McNair Enterprise Technique Center
5.46 MicroGen
5.47 Micropelt
5.48 Mitsubishi Electric
5.48.1 Mitsubishi Motors / Litcel
5.48.2 Mitsubishi Electric Group Energy and Electric Systems
5.48.3 Mitsubishi Electric Power Module for Electric Vehicles
5.48.4 Mitsubishi Electric Group Power Module Test Samples Specifications
5.49 NEC Corporation
5.49.1 NEC Global Business Activities/Achievements
5.49.2 NEC Group Vision 2017
5.49.3 NEC C&C Cloud Strategy
5.49.4 NEC Expand Global Business
5.50 Oak Ridge National Laboratory
5.51 Oak Ridge Micro-Energy
5.51.1 Oak Ridge Micro-Energy, Inc.
5.52 Planar Energy Devices -
5.52.1 DOE Selects Planar Energy for Oak Ridge National Laboratory Collaborative R&D Program to Advance Next-Generation Battery Development
5.53 PolyPlus
5.53.1 Poly Plus Lithium Water
5.54 Prieto
5.55 PS
5.56 ReVolt Technology
5.56.1 Executives of BMW and Gould Join ReVolt’s Advisory Leadership Team
5.57 SB LiMotive / Bosch and Samsung SDI
5.58 Saft
5.58.1 Saft, Building For Future Growth
5.58.2 Attractive Market Positioning In High-End Niche Markets
5.58.3 Saft Launches Lithium-Ion Battery Industrial Production At Jacksonville US Plant
5.59 Samsung
5.59.1 Samsung 2010 Significant Strategic Change
5.59.2 Samsung Apps
5.59.3 Samsung Display and Information Technology Innovations
5.59.4 Samsung Cameras: Consumer-Inspired Design
5.59.5 Samsung Creating a Future Home Entertainment TV
5.60 SNC
5.61 Solicore
5.62 Sony Corporation
5.62.1 Sony Technology
5.63 STMicroelectronics
5.63.1 STMicroelectronics Product Technologies
5.63.2 ST Custom and Semi-Custom Chips
5.63.3 ST Secure ICs
5.63.4 ST Application Specific Discretes (ASD™)
5.63.5 ST In-Check “Lab-on-Chip”
5.63.6 ST Multi-Segment Products
5.63.7 ST Microcontrollers
5.63.8 ST Smart Power Devices
5.63.9 ST Standard Linear and Logic
5.63.10 ST Discretes
5.63.11 ST Protection Devices
5.63.12 ST Sensors
5.63.13 ST RF
5.63.14 ST Real-time Clocks
5.64 Texas Instruments (TXN:NYSE)
5.64.1 Texas Instruments
5.65 Thunder Sky Battery Limited
5.66 Tokyo Electron Device
5.67 Umicore Thin Film Products
5.67.1 Umicore Materials Technology Group
5.68 Wha Fat Technological Co., Ltd
5.69 Zibo Dison
5.70 Battery Manufacturers
List of Tables
Table ES-1
Lithium Ion Battery Market Driving Forces
Table ES-2
Comparison Of Battery Performances
Figure ES-3
Thin Film Battery Energy Density
Table ES-4
Lithium-Ion Battery Market Shares, Dollars,
Worldwide, First Three Quarters 2011
Figure ES-5
Lithium-Ion Battery Market Forecasts Dollars,
Worldwide, 2011-2017
Table 1-1
Lithium Ion Battery Target Markets
Figure 1-2
Fleet Driving Favors Electric Vehicles
Table 1-3
Principal Features Used To Compare Rechargeable Batteries
Table 1-4
Challenges in Battery and Battery System Design
Figure 1-5
BMW’s Mini E Electric Car Powered By A
Rechargeable Lithium-Ion Battery
Table 1-6
Examples of Hybrid Electric Vehicles
Figure 1-7
Typical Structure Of A Thin Film Solid State Battery
Table 1-8
Characteristics Of Battery Cells
Table 2-1
Lithium Ion Battery Market Driving Forces
Table 2-2
Comparison Of Battery Performances
Figure 2-3
Thin Film Battery Energy Density
Table 2-4
Lithium-Ion Battery Market Shares, Dollars,
Worldwide, First Three Quarters 2011
Table 2-5
Lithium-Ion Battery Market Shares, Dollars,
Worldwide, 2010 and First Three Quarters 2011
Figure 2-6
Johnson Controls / Saft Battery Update
Figure 2-7
Lithium-Ion Battery Market Forecasts Dollars,
Worldwide, 2011-2017
Table 2-8
Lithium-Ion Battery Market Forecasts Dollars,
Worldwide, 2011-2017
Table 2-9
Lithium-Ion Battery Market Forecasts Dollars,
Worldwide, 2011-2017
Table 2-10
Lithium Ion Battery Selected Industry Market Segments
Figure 2-11
Lithium-Ion and lithium based Cell Phone Battery
Market Forecasts, Dollars, Worldwide, 2011-2017
Figure 2-12
Lithium-Ion and Lithium Based Small Electronics
Battery Markets Forecasts Dollars, Worldwide, 2011-2017
Figure 2-13
Lithium-Ion and lithium based Camera / Power Tool
Battery Market Forecasts, Worldwide, Dollars, 2011-2017
Figure 2-14
Lithium-Ion and lithium based PC / Notebook / Tablet
Battery Market Forecasts, Worldwide, Dollars, 2011-2017
Figure 2-15
Lithium-Ion and lithium based Small Electronics
Battery Market Forecasts, Worldwide, Dollars, 2011-2017
Table 2-16
Electric Vehicle (EV) Lithium Ion and Lithium
Based Battery, Market Forecasts Dollars,
Worldwide, 2011-2017
Figure 2-17
Lithium Ion Transportation Market Opportunity
Table 2-18
Constitution of Conventional Lithium-Ion Cell Materials
Table 2-19
Lithium-Ion Cells Material Unit Accounting For
Percentage Of The Battery Cost
Table 2-20
Production Capacity For New Materials Manufacture
Figure 2-21
A123 Systems High Growth Target Markets
Table 2-22
Lithium Ion Market Issues
Figure 2-23
A123 Assessment of Key Industry Participants in 2015
Figure-24
Silver Nanoplates
Table 2-25
Thin Film Battery Market Driving Forces
Figure 2-26
Thin Film and Printed Battery Market Shares, Dollars, 2010
Table 2-27
Thin Film and Printed Battery Market Shares, Dollars,
Worldwide, 2010 and First Three Quarters 2011
Figure 2-28
Thin Film and Printed Battery Markets Forecasts
Dollars, Worldwide, 2011-2017
Table 2-29
Thin Film and Printed Battery Market Forecasts
Dollars, Worldwide, 2011-2017
Table 2-30
Thin Film and Printed Battery Markets Forecasts
Dollars, Worldwide, 2011-2017
Table 2-31
Thin Film and Printed Battery Market Industry
Segments, Percent, Worldwide, 2011-2017
Figure 2-32
Sensor Network Thin Film Battery Forecasts
Table 2-33
Thin Film Battery Unique Properties
Figure 2-34
A123 Lead Acid Battery Replacement Target Market Size, 2013
Figure 2-35
Selected Lithium Ion Battery Prices
Figure 2-36
Power Tool Lithium Ion Battery Prices
Figure 2-37
Wha Fat Technological Co., Ltd 10440 AAA Series
Lithium Ion Rechargable Battery Prices
Figure 2-38
Lithium Ion Battery Pricing and Margin Improvement
Figure 2-39
Lithium-Ion and Other Lithium Battery
Regional Market Segments, Shipments,
First Three Quarters 2011
Table 2-40
Lithium-Ion and Other Lithium Battery
Regional Market Segments, Shipments,
First Three Quarters 2011
Figure 2-41
Chinese Lithium Ion Battery Revenue By Technology
Figure 2-42
A123 Micro-Hybrid Battery Applications By Region
Figure 2-43
Saft International Presence
Table 3-1
Sony VAIO® Notebook Batteries
Table 3-2
Sony Devices Using Lithium Ion Batteries
Figure 3-3
Sony Laptop Battery
Figure 3-4
Prieto Battery Nanowires Li-ion Batteries Using A 3D Structure
Table 3-5
Prieto Battery Features
Table 3-6
Saft Non Rechargeable LHS Battery Main applications
Table 3-7
Saft Non Rechargeable LS-W Battery Main applications
Table 3-8
Transportation Advanced Battery Market Segments
Table 3-9
Saft Li-ion Energy Storage Technology Features
Table 3-10
A123 Chemistry Systems Battery Cycle Life
Figure 3-11
A123 Systems Flat Voltage Curve
Figure 3-12
A123 Systems Battery Cap, Can, and Core
Figure 3-13
A123 Cell Products using Nanophosphate
Figure 3-14
A123 Systems Nameplate vs. Usable Energy
Figure 3-15
A123 Battery Systems Innovation
Figure 3-16
A123 Systems Lithium-Ion vs. Lead Acid Battery
Figure 3-17
A123 Systems 12 Volt Nanophosphate Engine Start Battery
Figure 3-18
A123 Nanophosphate Technology
Figure 3-19
A123 Systems Surface Area Increases Power and Usable Energy
Figure 3-20
A123 Systems Flat Voltage Curve
Figure 3-21
A123 Systems Technology
Table 3-22
BYD-Developed Fe Battery Features
Figure 3-23
BYD-Developed Fe Battery
Figure 3-24
Panasonic Manganese Lithium Rechargeable Batteries
Table 3-25
Li-Tec Battery CERIO® Product Lines Applications
Table 3-26
Samsung Lithium Ion Battery Features
Figure 3-27
SB LiMotive Co. Ltd is a 50/50 Joint Venture
Between Bosch and Samsung SDI
Figure 3-28
ReVolt TechnologieszFab Battery
Table 3-29
ReVolt Button Cell Air Electrode
Table 3-30
ReVolt Technology Partnership With BASF Target Markets
Figure 3-31
LG Lithium-Ion Cylindrical Battery Models
Figure 3-32
LG Battery Models
Figure 3-33
LG Li-ion Prismatic Battery
Figure 3-34
LG Lithium-ion Prismatic Battery
Table 3-35
BYD Lithium-Ion Batteries Main Features
Table 3-36
BYD Lithium-Ion Batteries High Energy Density
Figure 3-37
BYD Typical Lithium Ion Performance
Charge Characteristics
BYD Typical Lithium Ion Cycle Characteristics Temperature Characteristics
Figure 3-39
BYD Typical Lithium Ion Battery Structure
Figure 3-40
BYD Typical Lithium Ion Cylindrical Battery Structure
Figure 3-41
BYD Typical Li-Polymer Battery Structure
Figure 3-42
BYD Products Specification
Figure 3-43
BYD E-Bike Battery Solutions
Table 3-44
BYD Battery Issues
Figure 3-45
Oak Ridge Micro-Energy Discharge of a Thin-Film
Lithium Battery At Current Densities of 0.02, 0.1,
0.2, 0.5, 1.0, 2.0, 5.0, and 10.0 mA/cm2
Figure 3-46
Discharge of a Thin-Film Lithium-Ion Battery At Current
Densities of 0.02, 0.1, 0.2, 0.5, 1.0, 2.0, 5.0, and 10.0 mA/cm2
Figure 3-47
Ragone Plots Graph Of Energy vs. Power Per Unit
Area Of The Cathode From The Discharge Data For
The Lithium And Lithium-Ion Batteries
Table 3-48
Oak Ridge Micro-Energy Manufacturing Process For
Thin Film Batteries
Figure 3-49
Oak Ridge Micro-Energy Ceramic Wafer
Table 3-50
Oak Ridge Micro-Energy ORLI.0.5.CL Battery Features
Table 3-51
Oak Ridge Micro-Energy Consumer and Industrial Products
Table 3-52
Oak Ridge Micro-Energy Sensors
Table 3-53
Oak Ridge Micro-Energy Implantable Medical Products
Table 3-54
Oak Ridge Micro-Energy Government Applications
Table 3-55
Cymbet Solid State Energy Storage Energizing
Innovation Target Markets
Table 3-56
Cymbet Solid State Energy Storage products
Table 3-57
Cymbet EnerChip™ Solid-State Product Line
Table 3-58
Cymbet's EnerChip Benefits
Figure 3-59
Cymbet EnerChip CBC3105-BDC:
Table 3-60
Cymbet EnerChip CBC001-BDC: Target Markets
Table 3-61
Cymbet Energy Harvesting Applications
Table 3-62
Infinite Power Solutions THINERGY® Product Family
Table 3-63
Infinite Power Solutions, Inc. Maxim Energy Management Chips
Table 3-64
Infinite Power Solutions, Inc. Applications for energy harvester
Table 3-65
Infinite Power Solutions Charging Methods
Table 3-66
Wireless Sensor Network Applications
Figure 3-67
Planar Energy’s Solid State Batteries Spraying
Materials Onto A Metal Substrate
Figure 3-68
MIT Energy Harvesting Device Converts Low-
Frequency Vibrations Into Electricity
Table 3-69
ITN’s SSLB Solid-State Lithium Battery Target Markets
Table 3-70
ITN’s SSLB Technology Advantages
Table 3-71
ITN Technologies
Figure 3-72
ITN Capabilities To Develop And Deliver A
Quality, Fully-Functional, Nanoscale Product
Figure 3-73
B&K Target Markets
Figure 3-74
B&K Products
Figure 3-75
B&K Model and Capacity
Figure 3-76
Advanced Battery Factory Batteries a
Figure 3-77
Advanced Battery Factory Batteries b
Figure 3-78
Advanced Battery Factory Batteries c
Figure 3-79
Advanced Battery Factory Batteries d
Figure 3-80
Advanced Battery Factory Batteries e
Figure 3-81
Advanced Battery Factory Batteries f
Figure 3-82
Advanced Battery
Figure 3-83
E2-Technologies Battery
Figure 3-84
E2-Tec Battery Advantages
Figure 3-85
E2-Tec Battery Applications
Figure 3-86
PolyPlus Lithium Metal Electrodes Compatible
With Aqueous And Aggressive Non-Aqueous Electrolytes
Figure 3-87
PolyPlus Air and Water Stable Lithium Electrode
Figure 3-88
Thin Film Solid State Battery Construction
Figure 3-89
Excellatron Charge/Discharge Thin Film
Battery Profile At 25ºC
Figure 3-90
Excellatron Charge/Discharge Thin Film
Battery Profile At 150ºC
Figure 3-91
Excellatron Capacity Charge/Discharge 150ºC
Figure 3-92
Excellatron Capacity And Resistance Of
Thin Film Battery As A Function Of Temperature
Figure 3-93
Excellatron Battery High Rate Pulse Discharge
Figure 3-94
Excellatron Pulse Discharge
Figure 3-95
Excellatron's Battery (0.1 mAh)High Rate Pulse
Discharge Was By A 100 mA Pulse at 80ºC
Figure 3-96
Excellatron Long term Cyclability Of A
Thin Film Solid State Battery
Figure 3-97
Excellatron Discharge Capacity Of Thin-Film Batteries
Table 3-98
Excellatron Comparison Of Battery Performances
Figure 3-99
Excellatron Polymer Film Substrate Battery
Figure 3-100
Excellatron Unique Proprietary Passivation
Barrier and Packaging Solution
Figure 3-101
Voltage And Current Profile of a 10 mAh Excellatron Battery
Table 3-102
Excellatron Batteries Practical Advantages
Figure 3-103
NEC ORB Thin, Flexible Battery Technology
Figure 3-104
NEC ORB Battery
Figure 3-105
NEC ORB Flexible Battery
Table 3-106
NEC Nanotechnology Thin And Flexible Organic
Radical Battery (ORB) Characteristics Of The Technologies
Figure 3-107
NEC Organic Radical Battery
Figure 3-108
GMB Power EV Battery & System
Figure 3-109
Power Air Fuel Cell
Table 4-1
Thin Film Battery Unique Properties
Figure 4-2
Department of Energy's Oak Ridge National
Laboratory Battery Behavior At The Nanoscale
Figure 4-3
Rice Researchers Advanced Lithium-Ion
Technique has Microscopic Pores That Dot A Silicon Wafer
Figure 4-4
Rice University50 Microns Battery
Figure 4-5
Silver Nanoplates Decorated With Silver Oxy Salt
Nanoparticles
Figure 4-6
John Bates Patent: Thin Film Battery and Method for
Making Same
Table 4-7
Approaches to Selective Emitter (SE) Technologies
Figure 4-8
TAU Thin Films Of Lithium And Pyrite Separated By A
Film Of Composite Polymers
Figure 4-9
Nano composite Paper Energy Storage
Figure 4-10
XRD Patterns of MnO Thin Films
Figure 4-11
Nanoparticle Illustration
Table 2-12
Comparison Of Battery Performances
Table 4-13
Common Household-Battery Sizes, Shape, and Dimensions
Table 4-14
Thin Films For Advanced Batteries
Table 4-15
Thin Film Batteries Technology Aspects
Table 4-16
Thin Film Battery / Lithium Air Batteries Applications
Figure 4-17
Polymer Film Substrate Thin Flexible battery Profiles
Figure 4-18
Design Alternatives of Thin Film Rechargable Batteries
Figure 5-1
A123 Systems 20Ah Cell
Table 5-2
A123 Aims For Cathode Cost Reductions
Figure 5-3
A123 Cell Cost Breakdown
Figure 5-4
A123 Cell Cost Drivers
Figure 5-5
A123 Revenue Q2 2011
Figure 5-6
A123 Systems Revenue
Figure 5-7
A123 Commercial Applications
Figure 5-8
A123 Transportation Applications
Figure 5-9
A123 Projects LiB Market Share in 2015
Figure 5-10
A123 Projects Trucks and Buses Market Share in 2015
Figure 5-11
A123 Systems Transportation Market Positioning
Figure 5-12
A123 Systems Commercial Fleet Market Positioning
Figure 5-13
A123 Systems Addressable Market for Grid Storage
Figure 5-14
A123 Systems Grid Storage ROI Variables
Figure 5-15
A123 Lead Acid Replacement Target Market
Figure 5-16
A123 Revenue Mix
Figure 5-17
A123 Pricing and Margin Improvement
Figure 5-18
A123 Nanophosphate Advantage
Figure 5-19
Amperex Technology Limited (ATL) Locations
Figure 5-20
ATL Battery Applications
Table 5-21
Axion PbC® Prototype Key Performance Advantages
Figure 5-22
BAK Battery Manufacturing Facilities
Figure 5-23
Bosch Solar Energy Target Markets
Figure 5-24
Bosch Solar Cell
Figure 5-25
Bosch Solar Cells: Production
Figure 5-26
Delphi Corporate Transformation
Figure 5-27
Delphi Positioning
Table 5-28
Excellatron Solid State Market Positioning
Table 5-29
GS NANOTECH
Figure 5-30
GS Nanotech Thin Film Battery
Figure 5-31
GS NANOTECH Thin Film Battery
Figure 5-32 5-80
GS Nanotech Nanotechnology
Source: GS Nanotech.
Table 5-33
GS NANOTECH Thin Film Battery Advantages
Figure 5-34
Gee ES Nanotech Russia
Figure 5-35
Gee ES Nanotechnology Components
Table 5-36
Gee-Es Nanotech Products
Figure 5-37
Huanyu Batteries
Figure 5-38
Catalog of Huanyu Batteries
Table 5-39
ITN Technologies
Figure 5-40
ITN Thin Film Battery Technology
Figure 5-41
ITN Battery
Figure 5-42
ITN Thin-Film Deposition Systems
Figure 5-43
ITN’s Thin-Film Deposition Systems
Table 5-44
ITN Thin-Film Deposition Systems Products and Services Offered
Figure 5-45
ITN Thin-Film Deposition Systems
Figure 5-46
ITN Thin Film Plasmonics
Figure 5-47
ITNIYN Fuel Cells
Table 5-48
Johnson Research Products Available For License
Figure 5-49
Lishen Lithium-Ion Batteries Cylindrical Cell
Figure 5-50
Panasonic / Sanyo Solar HIT Garage Roof Panels
Figure 5-51
Panasonic / Sanyo Solar HIT Roof Panels
Figure 5-52
Panasonic / Sanyo Solar HIT Panels
Table 5-53
Maxim Major End-Markets
Figure 5-54
Mitsubishi Electric Power Module for Electric Vehicles
Table 5-55
Mitsubishi Electric Group J-Series Features
Table 5-56
Mitsubishi Electric Group Automotive-Grade
Quality And Functionality
Table 5-57
Mitsubishi Electric Group J-Series T-PM
Table 5-58
Mitsubishi Electric Group Power Module
Test Samples Specifications
Table 5-59
Oak Ridge National Laboratory ORNL Advance
Battery Materials And Processing Technology Contracts
Table 5-60
Oak Ridge National Laboratory And Battery
Manufacturers Energy Materials Program Aspects
Figure 5-61
Saft Revenue H1 2011
Figure 5-62
Saft Industrial Battery Group Description
Figure 5-63
Saft Specialty Battery Group Description
Figure 5-64
Johnson Controls / Saft Battery Update
Figure 5-65
Saft Opportunities in Lithium Ion Markets
Figure 5-66
Saft Grid Projects
Figure 5-67
Saft Revenue 2009
Figure 5-68
Saft International Presence
Table 5-69
Umicore Business Areas
Figure 5-70
Umicore Thin Film Products
Figure 5-71
Wha Fat Technological Lithium Ion Battery
Figure 5-72
Wha Fat Technological Lithium Ion Batteries
Figure 5-73
Wha Fat Technological Co., Ltd LED Flashlight
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