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Solid State Thin Film Battery, Printed Battery, and Smarter Computing Market Shares, Strategies, and Forecasts, Worldwide, 2012 to 2018

Winter Green Research
Published Date » 2012-02-07
No. Of Pages » 530

WinterGreen Research announces that it has a new study on Solid State Thin Film Battery, Printed Battery, and Smarter Computing Market Shares and Forecasts, Worldwide, 2012-2018. The 2012 study has 530 pages, 175 tables and figures.

Thin film battery market driving forces include creating business inflection by delivering 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 report full-year revenue more than doubled in 2011.

Infinite Power Solutions IPS has moved beyond R&D and commenced operations on the world's first high-volume production line for TFBs in Littleton, Colorado. Infinite Power Solutions, Inc. (IPS), a privately-held venture backed technology company near Denver, Colorado, is the global leader in developing and manufacturing solid-state, rechargeable thin-film batteries (TFBs) for micro-electronics applications. Thin film battery technology technical approaches differ.

Infinite Power Solutions IPS ORNL thin-film battery technology is achieved by developing nitride and sub-nitride Lithium-ion thin-film anodes as well as the "Li-free" battery, which combines the most desirable properties of a Li-ion and a Li battery.

Smarter computing is part of an IT opportunity, brought by the availability of many, many devices that measure what is going on in the world. These devices are made possible by the availability of small, inexpensive, reliable batteries. Smarter computing is related to achieving a more instrumented, interconnected and intelligent infrastructure. Blue Spark Technologies is the market leader in printed batteries with 46% share. It provides RFID and related smart card printed battery units.

The need to capture and analyze increasing amounts of data, deliver results to more users, and respond faster across all devices, without a corresponding increase in budget is a function of better management and better systems. A large amount of IT resources and about 70% of the overall IT budget is impacted by efficiencies that cam be brought by smarter computing. As applications continue to increase in complexity, and IT resources become scarce, organizations are in need of simple technologies that can help them reduce costs, quicken time to market and enhance their levels of customer service.

The need to capture and analyze increasing amounts of data, deliver results to more users, and respond faster across all devices, without a corresponding increase in budget is a function of better management and better systems. A large amount of IT resources and about 70% of the overall IT budget is impacted by efficiencies that cam be brought by smarter computing. As applications continue to increase in complexity, and IT resources become scarce, organizations are in need of simple technologies that can help them reduce costs, quicken time to market and enhance their levels of customer service.

Electric distribution substations are used to transform power from transmission voltage to the lower voltage used for local distribution. These provide a center for local energy storage as renewable energy creates a need for local storage and local distribution of intermittent energy. These substations are also expected to implement hydrogen based fuel cells that convert energy to hydrogen to store it.

Smart buildings save 30% of energy use. Smarter cities use sensors in the networks in the roads, traffic lights, light poles, police surveillance work, fire detection work, and airports.

Solid state thin film battery market segments include RFID, medical, remote sensor, and electric vehicle batteries. Forecasts differ by segment depending on the relative maturity of the technology for each segment. The smaller batteries are beginning to be shipped in production quantities. The larger electric vehicle EV batteries await further technology development.

Solid State thin film battery markets at $137.6 million in 2011 are anticipated to reach $3.9 billion in 2018. Market growth comes in large part from development of a new market for solar and renewable energy as a storage device for these intermittent power sources. Stationary fuel cells will complement the solid state batteries by providing campus and substation storage of renewable energy as hydrogen. Electric vehicles promise to use solid state batteries to be a significant source of renewable solar and wind energy storage as well as personal transport.
Table of Contents

THIN FILM AND PRINTED BATTERY EXECUTIVE SUMMARY

Thin Film Battery Market
Polymer Film Substrate for Flexible Thin Battery
Thin Film Battery Market Driving Forces
Smarter Computing Market Driving Forces
IBM WebSphere Product Set Leverages Thin Film Batteries
Thin Film Batteries Market Shares
Thin Film Batteries Market Forecasts

1. THIN FILM BATTERY AND SMARTER COMPUTING MARKET DESCRIPTION AND MARKET DYNAMICS
1.1 Smarter Computing Depends on Thin Film Batteries
1.1.1 Intelligent Systems: The Next Era of IT Leverages Thin Film Batteries
1.2 Cloud and Virtualization from IBM WebSphere
1.3 Thin Film Battery Target Markets
1.3.1 Permanent Power for Wireless Sensors
1.4 Principal Features Used To Compare Rechargeable Batteries
1.4.1 World Economy Undergoing A Transformation
1.4.2 Challenges in Battery and Battery System Design
1.5 Types of Batteries
1.5.1 Lead-Acid Batteries
1.5.2 Nickel-Based Batteries
1.5.3 Conventional Lithium-ion Technologies
1.5.4 Advanced Lithium-ion Batteries
1.5.5 Thin Film Battery Solid State Energy Storage
1.5.6 Ultra Capacitors
1.5.7 Fuel Cells
1.6 Nanotechnology
1.6.1 Components Of A Battery
1.7 Applications Require On-Printed Circuit Board Battery Power
1.7.1 Thin-film vs. Printed Batteries
1.8 Battery Safety / Potential Hazards
1.9 Thin Film Solid-State Battery Construction
1.10 Nanotechnology
1.11 Battery Is Electrochemical Device
1.11.1 Battery Depends On Chemical Energy
1.11.2 Characteristics Of Battery Cells
1.11.3 Components Of A Battery

2. Solid State Thin Film And Printed Battery Market Shares And Forecasts
2.1 Solid State Thin Film Battery Market
2.1.1 Thin Film Battery Market Driving Forces
2.1.2 Smarter Computing Market Driving Forces
2.1.3 IBM Smarter Planet Initiative WebSphere Product Set Leverages Thin Film Batteries
2.2 Solid State Thin Film Battery Battery Market Shares
2.2.1 Infinite Power Solutions -
2.2.2 Infinite Power Solutions MEC
2.2.3 Cymbet CBC
2.2.4 Cymbet Corporation -
2.2.5 Planar Energy Devices -
2.2.6 PolyPlus
2.2.7 Johnson / Excellatron
2.2.8 Solicore
2.2.9 Architecture Of The Prieto Battery Has Nanowires To Make Up The Anode
2.2.10 ITN Solid-State Lithium Battery
2.3 Solid State Thin Film Battery Market Forecasts
2.3.1 Solid State Thin Film Battery Market Forecasts, Units
2.4 Printed Battery Market Shares and Forecasts
2.5 Solid State Thin Film Battery and Printed Battery Market Segment Forecasts
2.5.1 RFID Solid State Thin Film Battery Forecasts
2.5.2 Battery-Assisted Passive and Active RFID
2.5.3 RFID Tags 0.05 mA Current Draw, Dollar and Unit Analysis
2.5.4 Printed Battery RFID Market Segment Forecasts, Units And Dollars
2.5.5 Sensor Current Draw
2.5.6 Remote Sensors
2.5.7 Sensor Network Solid State Thin Film Battery Forecasts
2.5.8 Medical Device Solid State Batteries
2.5.9 Medical Device Solid State Thin Film Battery Forecasts
2.5.1 Printed Medical Batteries
2.5.2 Electric Vehicle and Laptop Large Capacity Battery Model Rating
2.5.3 Solid State Thin Film Batteries
2.5.4 Solid State Thin Film Battery Market:- Bigger Than The Silicon Chip
2.5.5 Smart Card Battery Market Forecasts
2.6 Printed Electronics Battery Market
2.6.1 Eveready Battery Company / Blue Spark Technologies
2.6.2 Leonhard Kurz / PolyIC
2.6.3 Printed Electronics vs. The Silicon Chip
2.7 Smarter Computing Depends on Instrumented Devices
2.7.1 Advantages Offered By SOA
2.7.2 SOA As An Architecture
2.8 Services Oriented Architecture SOA Market Shares
2.8.1 IBM SOA Dominates the Industry
2.8.2 IBM System z Works for Smarter Computing
2.9 Nanotechnology Providing Next Generation Systems
2.9.1 Nanotechnology Thin Film Batteries
2.9.2 Silver Nanoplates Silicon Strategy Shows Promise For Batteries
2.9.3 Argonne Scientists Watch Nanoparticles
2.10 Lead-Acid Battery Manufacturers
2.11 Electrochromics
2.12 Thin Film Battery Geographical Region Analysis
2.12.1 Geographical Region Analysis

3. Thin Film Lithium Battery Product Description
3.1 IPS iTHINERGY ADP
3.1.1 IPS and ITT
3.2 Cymbet Energizing Innovation
3.2.1 Cymbet Products
3.2.2 Cymbet Rechargeable EnerChips and Effective Capacity
3.2.3 Cymbet Development Support
3.2.4 Cymbet Solid State Energy Storage for Embedded Energy, Power Back-up and Energy Harvesting
3.2.5 Cymbet Energy Harvesting
3.2.6 Cymbet Zero Power Devices
3.2.7 ComtexCymbet EnerChip™ Thin-Film Batteries
3.3 Infinite Power Solutions (IPS)—
3.3.1 Infinite Power Solutions High-Volume Production Line for TFBs -
3.3.2 Infinite Power Solutions Solid-State, Rechargeable Thin-Film Micro-Energy Storage Devices
3.3.3 Infinite Power Solutions IPS THINERGY® MEC Products
3.3.4 Infinite Power Solutions THINERGY MEC
3.3.5 Infinite Power Solutions, Inc. Recharge From A Regulated 4.10 V Source
3.3.6 Infinite Power Solutions, Inc. SRAM Backup Guidelines
3.3.7 Infinite Power Solutions, Inc. SRAM Backup Power Solution
3.3.8 Infinite Power Solutions Recharging THINERGY Micro-Energy Cells
3.3.9 Infinite Power Solutions Charging Methods
3.3.10 Infinite Power Solutions, Inc. THINERGY MECs
3.3.11 MicroGen Systems and Infinite Power Solutions Wireless Sensor Network (WSN)
3.3.12 Maxim Integrated, Infinite Power Solutions IC to Integrate All Of The Power-Management Functions For Ambient Energy Harvesting
3.3.13 Maxim Integrated Products (Nasdaq:MXIM) MAX17710 IC Integrates Power-Management
3.3.14 Maxim / Infinite Power Solutions, Inc. (IPS) THINERGY(R) Solid-State, Rechargeable MEC Battery Products
3.3.15 Maxim introduces MAX17710 PMIC :: Uniquely Enables Energy Harvesting with THINERGY MECs
3.4 Planar
3.4.1 Planar Energy Devices -
3.4.2 Planar Energy’s Solid State Batteries New Deposition Process
3.4.3 Planar Energy PrintGuide to Recent Battery Advances
3.4.4 Planar Lithium Manganese Dioxide Nanotechnology
3.4.5 Planar Energy Devices PowerPlane MXE Module
3.5 NEC
3.5.1 NEC Radio tags
3.5.2 NEC RFID Tag
3.5.3 NEC Nanotechnology Thin And Flexible Organic Radical Battery (ORB)
3.5.4 NEC / Nissan / AESC (Automotive Energy Supply Corporation)
3.6 Polyplus
3.6.1 PolyPlus Lithium water
3.6.2 PolyPlus Lithium / Air Couple
3.7 Johnson Research Product Development
3.8 Excellatron
3.8.1 Excellatron Polymer Film Substrate for Thin Flexible Profile
3.8.2 Excellatron Thin Film Batteries Deposited On A Thin Polymer Substrate
3.8.3 Excellatron High Rate Capability
3.8.4 Excellatron Thin Film Battery High Power & Energy Density, Specific Power & Energy
3.8.5 Excellatron Polymer Film Substrate for Thin Flexible Profile
3.8.6 Excellatron Unique Proprietary Passivation Barrier and Packaging Solution
3.8.7 Excellatron High Capacity Thin Film Batteries
3.8.8 Excellatron Next Generation Of Lithium Batteries
3.8.9 Excellatron High Rate Deposition Process (Plasma Enhanced Chemical Vapor Deposition)
3.9 Oak Ridge Micro-Energy, Inc.
3.9.1 Oak Ridge Micro-Energy Manufacturing Process
3.10 ITN's Lithium Technology
3.10.1 ITN Lithium Electrochromics
3.10.2 ITN Solid-State Lithium Battery
3.10.3 ITN Lithium Air Battery
3.11 Sony Thin Film And Lithium Ion Batteries For Electronics
3.11.1 ThinkPad Edge Thin Film And Lithium Ion Batteries For RFID Tags To Micro Medical Devices
3.12 Prieto Battery
3.12.1 Prieto Battery Reducing The Thickness Of The Electrode Results In Lower Energy Capacity And Shorter Operating Time
3.12.2 Prieto Battery Nanowires Make Up The First Key Piece Of The Battery, The Anode
3.12.3 Proposed Architecture of the Prieto battery
3.13 Solicore
3.13.1 Solicore RFID
3.13.2 Solicore Commercializes Its Revolutionary Battery Technology
3.14 Rogers
3.15 Blue Spark Technologies
3.15.1 Blue Spark UT (Ultra Thin) Series Printed Battery
3.15.2 Blue Spark Technologies Non-Rechargeable Printed Battery Properties
3.15.3 Blue Spark Technologies Product Set

4. Solid State Thin Film Lithium Battery Technology
4.1 Solid State Thin Film Batteries
4.1.1 Polymer Film Substrate for Flexible Thin Battery
4.2 Battery Breakthroughs
4.2.1 Thin Film Battery Timescales and Costs
4.2.2 MIT Thin Film Battery Researchers
4.2.3 A123 MIT Very High-Power Lithium-Ion Batteries
4.2.4 A123 MIT Carbon Nanotube Electrodes
4.2.5 ORNL Scientists Reveal Battery Behavior At The Nanoscale
4.2.6 Rice University and Lockheed Martin Scientists Discovered Way To Use Silicon To Increase Capacity Of Lithium-Ion Batteries
4.2.7 Rice University50 Microns Battery
4.2.8 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. THIN FILM BATTERY COMPANY PROFILES

5.1 Arotech
5.1.1 Arotech's New SWIPES Product Named One of the U.S. Army's Ten Greatest Inventions of 2011
5.1.2 Arotech's Battery and Power Systems Division
5.1.3 Electric Fuel Battery Corporation
5.2 Altair Nanotechnologies Inc.
5.2.1 Altair Nanotechnologies Reports Second Quarter 2011 Revenue
5.3 Citic Guoan
5.3.1 MGL One Of The Biggest Cathode Material (LiCoO2) Manufacturers in China
5.3.2 MGL Total Battery Production Capacity
5.3.3 MGL Company Profile
5.4 Cymbet
5.4.1 Cymbet Team:
5.4.2 Cymbet Investors:
5.4.3 Cymbet Investors
5.4.4 Cymbet Partners, Sales and Distribution:
5.4.5 Cymbet Manufacturing:
5.4.6 Cymbet to Open World's Highest Volume Solid-State Battery Manufacturing Facility
5.4.7 Cymbet Partnering with X-FAB
5.4.8 Cymbet / X-FAB, Inc.
5.4.9 Cymbet Expanding in Minnesota
5.5.4.10 Cymbet / LEDA
5.4.11 Distribution Agreement EnerChip™ Eco-friendly Solid State Batteries
5.4.12 Cymbet EVAL-09 Utilizes Harnessing Ambient Energy
5.4.13 Cymbet Secures $31 Million in Private Financing
5.5 Infinite Power Solutions, Inc.
5.6 Eveready Battery Company / Blue Spark Technologies
5.7 Excellatron
5.8 GS Nanotech
5.9 GS Caltex / GS Yuasa
5.9.1 GS Battery (USA) Inc.
5.10 IBM
5.10.1 IBM WebSphere
5.10.2 IBM Business Partnering Strategy
5.10.3 IBM Strategic Priorities
5.10.4 IBM BPM Powered By Smart SOA
5.10.5 IBM Delivers Integration and Innovation to Clients
5.10.6 IBM Business Model
5.10.7 IBM Unified Communications In The Cloud Architecture
5.10.8 IBM LotusLive Cloud-Based Portfolio Of Social Networking And Collaboration Services
5.10.9 IBM Revenue
5.10.10 IBM Software Capabilities
5.10.11 IBM Systems and Technology Capabilities
5.10.12 IBM Worldwide Organizations
5.10.13 IBM Integrated Supply Chain
5.10.14 IBM Security
5.10.15 IBM Cloud Computing
5.10.16 IBM Business Model
5.10.17 IBM Business Segments And Capabilities
5.10.18 IBM GTS Strategic Outsourcing Services Capabilities
5.10.19 IBM Global Process Services.
5.10.20 IBM Integrated Technology Services.
5.10.21 IBM GTS Services Delivery
5.10.22 IBM Application Management Service
5.10.23 IBM Software Capabilities
5.10.24 IBM Systems and Technology
5.10.25 IBM Global Financing
5.10.26 IBM Premier Globally Integrated Enterprise
5.10.27 IBM Integrated Supply Chain
5.10.28 IBM Software Competition
5.10.29 IBM 2010 Revenue IBM LotusLive Cloud-Based Social Networking And Collaboration
5.11 Information Builders
5.11.1 Information Builders / iWay Software
5.11.2 iWay Software
5.12 Infinite Power Solutions
5.12.1 Infinite Power Solutions Solid-State, Thin-Film Batteries
5.12.2 Infinite Power Solutions Micro-Energy Storage Devices
5.12.3 Infinite Power Solutions Battery Applications
5.12.4 Infinite Power Solutions And Tokyo Electron Device Global Distribution Agreement
5.12.5 Infinite Power Solutions Raises $20.0m In Series C Financing
5.13 Inventec
5.14 ITN Lithium Technology
5.14.1 ITN’s Lithium EC sub-Division Focused On Development And Commercialization of EC
5.14.2 ITN’s SSLB Division Thin-Film Battery Technology
5.14.3 ITN Lithium Air Battery
5.14.4 ITN Fuel Cell
5.14.5 ITN Thin-film Deposition Systems
5.14.6 ITN Real Time Process Control
5.14.7 ITN Plasmonics
5.15 KSW Microtec
5.15.1 KSW Microtec Efficient Flexible, Producer of RFID Components
5.16 Matsushita / Panasonic / Sanyo / Sanyo Solar
5.16.1 Panasonic Corporation Revenue
5.16.2 Sanyo
5.16.3 SANYO 2011 Sales Of Solar Photovoltaic Systems Panasonic Full Year Revenue Panasonic / Sanyo Solar Ark
5.16.4 Panasonic /Sanyo Solar Stone Brewing Company Reference Account
5.16.5 Panasonic / Sanyo Solar lumenHAUS Reference Account
5.16.6 InSpec / SANYO
5.16.7 SANYO and InSpec Group Partnership Generates Multiple Solar Installations in Oregon
5.17 Maxim / Dallas (MXIM:Nasdaq)
5.17.1 Maxim acquires Energy Measurement Company Teridian
5.17.2 Maxim / Dallas Semiconductor Revenue
5.17.3 Maxim / Dallas Semiconductor Revenue
5.17.4 Maxim / Dallas Semiconductor Principal Competitors
5.17.5 Maxim / Dallas Semiconductor
5.17.6 Maxim / Zilog
5.17.7 Maxim / Vitesse
5.18 MicroGen
5.19 Micropelt
5.20 Mitsubishi Electric
5.20.1 Mitsubishi Motors / Litcel
5.20.2 Mitsubishi Electric Group Energy and Electric Systems
5.20.3 Mitsubishi Electric Power Module for Electric Vehicles Mitsubishi Electric Group Power Module Test Samples Specifications
5.21 NEC Corporation
5.21.1 NEC Global Business Activities/Achievements
5.21.2 NEC Group Vision 2017
5.21.3 NEC C&C Cloud Strategy
5.21.4 NEC Expand Global Business
5.22 Oak Ridge National Laboratory
5.22.1 Oak Ridge Micro-Energy
5.22.2 Oak Ridge Micro-Energy, Inc.
5.23 Planar Energy Devices -
5.23.1 DOE Selects Planar Energy for Oak Ridge National Laboratory Collaborative R&D Program to Advance Next-Generation Battery Development
5.24 Leonhard Kurz / PolyIC
5.25 PolyPlus
5.25.1 Poly Plus Lithium Water
5.26 Prieto
5.27 PS
5.28 SB LiMotive / Bosch and Samsung SDI
5.29 Saft
5.29.1 Saft, Building For Future Growth
5.29.2 Attractive market positioning in high-end niche markets
5.29.3 Saft Launches Lithium-Ion Battery Industrial Production At Jacksonville US Plant
5.30 Samsung
5.30.1 Samsung 2010 Significant Strategic Change
5.30.2 Samsung Apps
5.30.3 Samsung Display and Information Technology Innovations
5.30.4 Samsung Cameras: Consumer-Inspired Design
5.30.5 Samsung Creating a Future Home Entertainment TV
5.31 SNC
5.32 Solicore
5.32.1 Solicore's Primary Target Markets:
5.33 Sony Corporation
5.33.1 Sony Technology
5.34 STMicroelectronics (NYSE:STM)
5.34.1 STMicroelectronics Product Technologies
5.34.2 ST Custom and Semi-Custom Chips
5.34.3 ST Secure ICs
5.34.4 ST Application Specific Discretes (ASD™)
5.34.5 ST In-Check “Lab-on-Chip”
5.34.6 ST Multi-Segment Products
5.34.7 ST Microcontrollers
5.34.8 ST Smart Power Devices
5.34.9 ST Standard Linear and Logic
5.34.10 ST Discretes
5.34.11 ST Protection Devices
5.34.12 ST Sensors
5.34.13 ST RF 5-166
5.34.14 ST Real-time Clocks
5.35 Texas Instruments (TXN:NYSE)
5.35.1 Texas Instruments
5.36 Thunder Sky Battery Limited
5.37 Tokyo Electron Device
5.38 Umicore Thin Film Products
5.38.1 Umicore Materials Technology Group
5.39 Zibo Dison
5.40 Battery manufacturers

List of Tables


Table ES-1
Thin Film Battery Market Driving Forces
Table ES-2
Smarter Computing Market Driving Forces
Table ES-3
Thin Film Battery Benefits
Table ES-4
Comparison Of Battery Performance
Figure ES-5
Thin Film Battery Energy Density
Figure ES-6
Thin Film and Printed Battery Market Shares, Dollars, 2010
Figure ES-7
Thin Film and Printed Battery Markets Forecasts
Dollars, Worldwide, 2011-2017
Table 1-1
Thin Film Battery Target Markets
Table 1-2
Principal Features Used To Compare Rechargeable Batteries
Table 1-3
Challenges in Battery and Battery System Design
Figure 1-4
Discharge of a Lithium Battery
Figure 1-5
Typical Structure Of A Thin Film Solid State Battery
Table 1-6
Characteristics Of Battery Cells
Figure 1-7
Discharge of a Lithium Battery
Table 2-1
Thin Film Battery Market Driving Forces
Table 2-2
Smarter Computing Market Driving Forces
Table 2-3
Thin Film Battery Benefits
Table 2-4
Comparison Of Battery Performance
Figure 2-5
Thin Film Battery Energy Density
Figure 2-6
Solid State Thin Film Batteries, Worldwide, Market Share, 2011
Table 2-7
Solid State Thin Film Battery Market Shares, Dollars, Worldwide, 2011
Table 2-8
Digi-Key Infinite Power Solutions (IPS) Pricing
Figure 2-9
Digi-Key Unit Pricing for Cymbet Solid State Battery Units
Figure 2-10
Solid State Thin Film Battery Markets Forecasts Dollars, Worldwide, 2012-2018
Table 2-11
Solid State Thin Film Battery Market Forecasts, Dollars, Shipments, Worldwide, 2012-2018
Figure 2-12
Solid State Thin Film Batteries, Worldwide, Units, Forecasts, 2012-2018
Table 2-13
Solid State Thin Film Battery Market Segment Forecasts, Units, Shipments, Worldwide, 2012-2018
Table 2-14
Solid State Thin Film Battery Market Segment Forecasts, Units and Dollars, Shipments, Worldwide, 2012-2018
Table 2-15
Solid State Thin Film Battery Market Industry Segments, Percent, Worldwide, 2012-2018
Figure 2-16
Printed Batteries Market Shares, Worldwide, 2012-2018
Figure 2-17
Printed Battery Market Forecasts, Dollars, Worldwide, 2012-2018
Table 2-18
Printed Battery Market Segment Forecasts, Dollars, Shipments, Worldwide, 2012-2018
Figure 2-19
RFID Solid State Thin Film Battery Market Forecasts, Dollars, Worldwide, 2012-2018
Table 2-20
RFID Applications And Industry Solutions For Battery-Assisted Passive And Active Batteries
Figure 2-21
Solid State Thin Film Active RFID Tag Battery Market Segment Forecasts, Dollars, Shipments, Worldwide, 2012-2018
Table 2-22
Solid State Thin Film Active RFID Tag Battery Market Segment Forecasts, Units and Dollars, Shipments, Worldwide, 2012-2018
Table 2-23
Printed Battery RFID Market Segment Forecasts, Units and Dollars, Shipments, Worldwide, 2012-2018
Figure 2-24
Remote Sensor Batteries
Figure 2-25
Remote Sensor Solid State Thin Film Battery Market Forecasts, Worldwide, Dollars, 2012-2018
Figure 2-26
Mid-Size Sensor Solid State Thin Film Solid State Battery Market Segment Forecasts, Units and Dollars, Shipments, Worldwide, 2012-2018
Table 2-27
Small Sensor Solid State Thin Film Battery Market Segment Forecasts, Units and Dollars, Shipments, Worldwide, 2012-2018
Figure 2-28
Hearing Aid, Specialized, and Implantable Medical Solid State Thin Film Battery Market Forecasts, Dollars, Worldwide, 2012-2018
Table 2-29
Solid State Thin Film Specialized and Implantable Medical Battery Market Segment Forecasts, Units and Dollars, Shipments, Worldwide, 2012-2018
Figure 2-30
Solid State Thin Film Hearing Aid Medical Battery Market Segment Forecasts, Units and Dollars, Shipments, Worldwide, 2012-2018
Figure 2-31
A123 Pricing and Margin Improvement of Lithium Ion Batteries
Figure 2-32
Smarter Computing Depends on Instrumented Devices
Figure 2-33
Smarter Planet Impact on IT
Table 2-34
Advantages Offered by SOA
Table 2-35
Services Oriented Architecture SOA Market Shares, Dollars, Worldwide, 2010
Table 2-36
Services Oriented Architecture SOA Application Market Shares, Dollars, Worldwide, 2010
Figure 2-37
Silver Nanoplates
Figure 2-38
Lead-Acid Battery Target Market Size
Table 2-39
Solid State Thin Film and Printed Battery Regional
Market Segments, 2011
Table 2-40
Solid State Thin Film and Printed Battery Regional
Market Segments, 2011
Figure 2-41
Fuel Economy Gained for Incremental Cost
Figure 2-42
Saft International Presence
Table 3-1
Cymbet Solid State Energy Storage Energizing Innovation Target Markets
Table 3-2
Cymbet Solid State Energy Storage products
Table 3-3
Cymbet EnerChip™ Solid-State Product Line
Table 3-4
Cymbet's EnerChip Benefits
Figure 3-5
Cymbet EnerChip CBC3105-BDC:
Table 3-6
Cymbet EnerChip CBC001-BDC: Target Markets
Table 3-7
Cymbet Energy Harvesting Applications
Table 3-8
Infinite Power Solutions THINERGY® Product Family
Table 3-9
Infinite Power Solutions, Inc. Maxim Energy Management Chips
Table 3-10
Infinite Power Solutions, Inc. Applications For Energy Harvester
Table 3-11
Infinite Power Solutions Charging Methods
Table 3-12
Wireless Sensor Network Applications
Table 3-13
IPS Specifications
Figure 3-14
Planar Energy’s Solid State Batteries Spraying Materials
Onto A Metal Substrate
Figure 3-15
NEC ORB Thin, Flexible Battery Technology
Figure 3-16
NEC ORB Battery
Figure 3-17
NEC ORB Flexible Battery
Table 3-18
NEC Nanotechnology Thin And Flexible Organic Radical Battery (ORB) Characteristics Of The Technologies
Figure 3-19
NEC Organic Radical Battery
Figure 3-20
PolyPlus Lithium Metal Electrodes Compatible With Aqueous And Aggressive Non-Aqueous Electrolytes
Figure 3-21
PolyPlus Air and Water Stable Lithium Electrode
Figure 3-22
Thin Film Solid State Battery Construction
Figure 3-23
Excellatron Charge/Discharge Thin Film Battery Profile At 25ºC
Figure 3-24
Excellatron Charge/Discharge Thin Film Battery Profile At 150ºC
Figure 3-25
Excellatron Capacity Charge/Discharge 150ºC
Figure 3-26
Excellatron Capacity And Resistance Of Thin Film Battery As A Function Of Temperature
Figure 3-27
Excellatron Battery High Rate Pulse Discharge
Figure 3-28
Excellatron Pulse Discharge
Figure 3-29
Excellatron's battery (0.1 mAh) High Rate Pulse Discharge
Was By a 100 mA Pulse at 80ºC
Figure 3-30
Excellatron Long term Cyclability Of A Thin Film Solid State Battery
Figure 3-31
Excellatron Discharge Capacity Of Thin-Film Batteries
Table 3-32
Excellatron Comparison Of Battery Performances
Figure 3-33
Excellatron Polymer Film Substrate Battery
Figure 3-34
Excellatron Unique Proprietary Passivation Barrier and Packaging Solution
Figure 3-35
Voltage And Current Profile of a 10 mAh Excellatron Battery
Table 3-36
Excellatron Batteries Practical Advantages
Figure 3-37
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 3-38
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 3-39
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 3-40
Oak Ridge Micro-Energy Manufacturing Process For Thin Film Batteries
Figure 3-41
Oak Ridge Micro-Energy Ceramic Wafer
Table 3-42
Oak Ridge Micro-Energy ORLI.0.5.CL Battery Features
Table 3-43
Oak Ridge Micro-Energy Consumer and Industrial Products
Table 3-44
Oak Ridge Micro-Energy Sensors
Table 3-45
Oak Ridge Micro-Energy Implantable Medical Products
Table 3-46
Oak Ridge Micro-Energy Government Applications
Table 3-47
ITN’s SSLB Solid-State Lithium Battery Target Markets
Table 3-48
ITN’s SSLB Technology Advantages
Table 3-49
ITN Technologies
Figure 3-50
ITN Capabilities To Develop And Deliver A Quality, Fully-Functional, Nanoscale Product
Table 3-51
Sony VAIO® Notebook Batteries
Table 3-52
Sony Devices Using Lithium Ion Batteries
Figure 3-53
Sony Laptop Battery
Figure 3-54
Prieto Battery Nanowires Li-ion Batteries Using A 3D Structure
Table 3-55
Prieto Battery Features
Table 3-56
Blue Spark UT Batteries Ultra-Thin Form Factor Applications
Table 3-57
Blue Spark Technologies Non-Rechargeable Printed Battery Properties
Table 3-58
Blue Spark Technologies Product Set
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 4-12
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
Table 5-1
Excellatron Solid State Market Positioning
Table 5-1a
GS NANOTECH
Figure 5-2
GS Nanotech Thin Film Battery
Figure 5-3
GS NANOTECH Thin Film Battery
Figure 5-4
GS Nanotech Nanotechnology
Table 5-5
GS NANOTECH Thin Film Battery Advantages
Figure 5-6
IBM SMB Partner Go to Market Approach
Table 5-7
IBM Strategic Priorities
Table 5-8
iWay Software Integration Provider Solutions
Table 5-9
iWay Products
Table 5-10
iWay Solutions
Table 5-11
iWay Technology
Table 5-12
iWay Adapters for Partners
Table 5-13
iWay Customers
Table 5-14
ITN Technologies
Figure 5-15
ITN Thin Film Battery Technology
Figure 5-16
ITN Battery
Figure 5-17
ITN Thin-Film Deposition Systems
Figure 5-18
ITN’s Thin-Film Deposition Systems
Table 5-19
ITN Thin-Film Deposition Systems Products and Services Offered
Table 5-20
ITN Thin-Film Deposition Systems
Figure 5-21
ITNIYN Fuel Cells
Figure 5-22
Panasonic / Sanyo Solar HIT Garage Roof Panels
Figure 5-23
Panasonic / Sanyo Solar HIT Roof Panels
Figure 5-24
Panasonic / Sanyo Solar HIT Panels
Table 5-25
Maxim Major End-Markets
Figure 5-26
Mitsubishi Electric Power Module for Electric Vehicles
Table 5-27
Mitsubishi Electric Group J-Series Features
Table 5-28
Mitsubishi Electric Group Automotive-Grade
Quality And Functionality
Table 5-29
Mitsubishi Electric Group J-Series T-PM
Table 5-30
Mitsubishi Electric Group Power Module Test Samples Specifications
Table 5-31
Oak Ridge National Laboratory ORNL Advance Battery Materials And Processing Technology Contracts
Table 5-32
Oak Ridge National Laboratory And Battery Manufacturers
Energy Materials Program Aspects
Figure 5-33
Poly IC Printed Electronics
Figure 5-34
Saft Revenue H1 2011
Figure 5-35
Saft Industrial Battery Group Description
Figure 5-36
Saft Specialty Battery Group Description
Figure 5-37
Johnson Controls / Saft Battery Update
Figure 5-38
Saft Opportunities in Lithium Ion Markets
Figure 5-39
Saft Grid Projects
Figure 5-40
Saft Revenue 2009
Figure 5-41
Saft International Presence
Table 5-42
Umicore Business Areas
Figure 5-43
Umicore Thin Film Products

List of Figures

NA

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