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Thin Film Solid State Battery, Printed Battery, and Smarter Computing Market Shares, Strategies, and Forecasts, Worldwide, 2011 to 2017
Publication Date Oct 2011
Publisher WinterGreen Research
Product Type Report
Pages 505
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WinterGreen Research announces that it has a new study on Thin Film and Printed Battery Market Shares and Forecasts, Worldwide, Nanotechnology 2011-2017. These products power sensors that are the base for smarter computing. The 2011 study has 505 pages, 164 tables and figures. Thin film batteries are evolving solid state technology that provides vast improvements in energy density and creates units that can be recharged 40,000 times, up from 200 times for traditional batteries.

Thin film battery market driving forces include business inflection that is achieved by delivering 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.

Smarter computing depends on instrumented devices. Key factors that increase the demand for these thin film batteries is the flexibility these batteries offer in terms of size and shape. Roll-to-roll production technology, a process of manufacturing battery cell on a roll of flexible plastic material or a metal foil, enables low cost and high volume manufacturing.

Megatrends include consumer demand for increased portability, smart cities that demand connectivity and, tracking all through the city, and human demand for environmentally friendly products. These megatrends are driving the demand for these batteries. Widespread usage of smart cards in diverse applications is another factor creating demand for these batteries. Smartcards powered through thin film batteries enable better contact from a smart card to the common database, retaining the dimensions of the card.

Software is needed to create systems that manage smarter computing and instrumented systems. SOA provides the base for cloud computing and for smarter computing. IBM is the market leader in SOA.

IBM is the leader in SOA markets with 78% share in 2010. No other vendor has above 4% market share and software vendors are merging and making acquisitions at a rapid pace seeking to achieve credible SOA product sets. IBM software is the defacto standard in this industry. The market is evolving rapidly.

One of the remarkable aspects of the IBM SOA solution is that it permits users to work across software segments to achieve significant insight into their IT automated process. Thus, while most software fits into a neat category of software, business process management (BPM), information management, data base, applications, application server, system management, SOA embraces a large number of categories to provide a solution. The IBM SOA solution is robust because it supports so many different aspects of integration across platforms.

With WebSphere MQ as a base, the IBM SOA solution is able to transport messages once and only once, in a mission critical manner, across disparate platforms and across multiple layers of application, creating an integration stack that is unique.

Cloud and virtualization from IBM leverage the smarter computing using the WebSphere product set that leverage sensors used to implement smarter computing. These sensors need thin film batteries to function remotely. In a smarter computing dynamic business climate, organizations are challenged with managing an ever-growing amount of business applications, often requiring extremely sophisticated processing capabilities. The thin film batteries are used to support gathering information from instrumented sensors in large networks.

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 better battery. There is a fundamental challenge to evolve solid state batteries.

Solid state batteries need more work to become a large market. Fabrication methods do not yet scale 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.

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 opens 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.

Thin film battery high power & energy density, specific power & energy are issues. A comparison of battery performance for various rechargeable batteries is a compelling illustration of the value of thin film batteries. Data for thin film batteries using very thin substrates illustrate the longer cycle life that can be achieved.

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.

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.

According to Susan Eustis, lead author of the study, "thin film solid state batteries bring smaller, more energy efficient batteries for use in virtually every portable device and every industry. Products will be used in all areas of the world." When thin film solid state batteries are looked at with respect to ROI and TCO, the units pay for themselves because of increased energy efficiency and support for many times more recharges, providing a longer lifetime for units. Batteries provide very attractive payback.

The global market for thin-film and printed batteries at $182.5 million in 2010 is expected to reach $3.6 billion by 2017. This market is expected to increase because it enables smarter computing and there is tremendous momentum for this in the market now. System design is accelerating the value of cloud smarter buildings, roads, appliances, and bridges. All these need sensors and all those need tiny batteries.

The total solid state batter market is anticipated to reach $ 20 billion sometime in 2023.

WinterGreen Research is an independent research organization funded by the sale of market research studies all over the world and by the implementation of ROI models that are used to calculate the total cost of ownership of equipment, services, and software. The company has 35 distributors worldwide, including Global Information Info Shop, Market Research.com, Research and Markets, Bloomberg, and Thompson Financial.

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

 

Thin Film Battery Market Description and Market Dynamics

 

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

 

 

 

Thin Film Battery Market Shares and Market Forecasts

 

2. Thin Film and Printed Battery Market Shares and Forecasts

2.1   Thin Film Battery Market

2.1.1    Polymer Film Substrate for Flexible Thin Battery

2.1.2    Thin Film Battery Market Driving Forces

2.1.3    Smarter Computing Market Driving Forces

2.1.4    IBM WebSphere Product Set Leverages Thin Film Batteries

2.2   Thin Film Batteries Market Shares

2.2.1    Infinite Power Solutions –

2.2.2    Cymbet Corporation –

2.2.3    Planar Energy Devices –

2.2.4    Poly plus

2.2.5    Johnson / Excellatron

2.2.6    Eveready Battery Company / Blue Spark Technologies

2.2.7    Solicore

2.2.8    Leonhard Kurz / PolyIC

2.2.9    ITN Solid-State Lithium Battery

2.2.10  Nokia to add NFC

2.2.11  Architecture Of The Prieto Battery Has

Nanowires To Make Up The Anode

2.2.12  Printed Electronics

2.2.13  Thin Film Batteries, Worldwide, Market Share, 2010

2.2.14  Printed Batteries, Worldwide, Market Share, 2010

2.2.15  Printed electronics vs. The Silicon Chip

2.3   Thin Film Batteries Market Forecasts

2.3.1    Thin Film Batteries Deposited Directly Onto

Chips Or Chip Packages2-

2.3.2    Thin Film, Solid State Printed Electronics

Battery Market:- Bigger than the Silicon Chip

2.3.3    Remote Sensors

2.3.4    Sensor Network Thin Film Battery Forecasts

2.3.5    Smart Card Battery Market Forecasts

2.3.6    RFID and Small Thin Film Battery Forecasts

2.3.7    Battery-Assisted Passive and Active RFID

2.3.8    Medical Batteries

2.3.9    Medical Device Thin Film Battery Forecasts

2.4   Smarter Computing Depends on Instrumented Devices

2.4.1    Advantages Offered By SOA

2.4.2    SOA As An Architecture

2.5   Services Oriented Architecture SOA Market Shares

2.5.1    IBM SOA Dominates the Industry

2.5.2    IBM System z Works for Smarter Computing

2.6   Nanotechnology Providing Next Generation Systems

2.6.1    Nanotechnology Thin Film Batteries

2.6.2    Silver Nanoplates Silicon Strategy Shows Promise

For Batteries

2.6.3    Argonne Scientists Watch Nanoparticles

2.7   Thin Film Batteries Combining Better Performance

With Lower Cost

2.7.1    Thin Film Battery Prices

2.8   Lead-Acid Battery Manufacturers

2.9   Electrochromics

2.10     Established Lead-Acid Battery Manufacturers

2.11     Thin Film Battery and Lithium Ion Battery Prices

2.11.1  IPS Prices

2.12     Thin Film Battery Geographical Region Analysis

2.12.1  Geographical Region Analysis

 

Thin Film Battery Product Description

 

3. Thin Film Battery Lithium Battery

Product Description

3.1   Cymbet Energizing Innovation

3.1.1    Cymbet Products

3.1.2    Cymbet Rechargeable EnerChips and Effective Capacity

3.1.3    Cymbet Development Support

3.1.4    Cymbet Solid State Energy Storage for Embedded

Energy, Power Back-up and Energy Harvesting

3.1.5    Cymbet Energy Harvesting

3.1.6    Cymbet Zero Power Devices

3.1.7    ComtexCymbet EnerChip™ Thin-Film Batteries

3.2   Infinite Power Solutions (IPS)—

3.2.1    Infinite Power Solutions High-Volume Production

Line for TFBs –

3.2.2    Infinite Power Solutions Solid-State, Rechargeable

 Thin-Film Micro-Energy Storage Devices

3.2.3    Infinite Power Solutions IPS THINERGY® MEC Products

3.2.4    Infinite Power Solutions THINERGY MEC

3.2.5    Infinite Power Solutions, Inc. Recharge From A

Regulated 4.10 V Source

3.2.6    Infinite Power Solutions, Inc. SRAM Backup Guidelines

3.2.7    Infinite Power Solutions, Inc. SRAM Backup Power Solution

3.2.8    Infinite Power Solutions Recharging

THINERGY Micro-Energy Cells

3.2.9    Infinite Power Solutions Charging Methods

3.2.10  Infinite Power Solutions, Inc. THINERGY MECs

3.2.11  MicroGen Systems and Infinite Power Solutions

Wireless Sensor Network (WSN)

3.2.12  Maxim Integrated, Infinite Power Solutions IC to

Integrate All Of The Power-Management Functions For

Ambient Energy Harvesting

3.2.13  Maxim Integrated Products (Nasdaq:MXIM)

MAX17710 IC Integrates Power-Management

3.2.14  Maxim / Infinite Power Solutions, Inc. (IPS)

THINERGY(R) Solid-State, Rechargeable MEC Battery Products

3.2.15  Maxim introduces MAX17710 PMIC ::

Uniquely enables Energy Harvesting with THINERGY MECs

3.3   Planar

3.3.1    Planar Energy Devices –

3.3.2    Planar Energy’s Solid State Batteries New Deposition Process

3.3.3    Planar Energy PrintGuide to Recent Battery Advances

3.3.4    Planar Lithium Manganese Dioxide Nanotechnology

3.3.5    Planar Energy Devices PowerPlane MXE Module

3.4   NEC

3.4.1    NEC Radio Tags

3.4.2    NEC RFID Tag

3.4.3    NEC Nanotechnology Thin And Flexible

Organic Radical Battery (ORB)

3.4.4    NEC / Nissan / AESC

(Automotive Energy Supply Corporation)

3.5   Polyplus

3.5.1    PolyPlus Lithium water

3.5.2    PolyPlus Lithium / Air Couple

3.6   Johnson Research Product Development

3.7   Excellatron

3.7.1    Excellatron Polymer Film Substrate for Thin Flexible Profile

3.7.2    Excellatron Thin Film Batteries Deposited

On A Thin Polymer Substrate

3.7.3    Excellatron High Rate Capability

3.7.4    Excellatron Thin Film Battery High Power &

Energy Density, Specific Power & Energy

3.7.5    Excellatron Polymer Film Substrate for Thin Flexible Profile

3.7.6    Excellatron Unique Proprietary Passivation

Barrier and Packaging Solution

3.7.7    Excellatron High Capacity Thin Film Batteries

3.7.8    Excellatron Next Generation Of Lithium Batteries

3.7.9    Excellatron High Rate Deposition Process

(Plasma Enhanced Chemical Vapor Deposition)

3.8   Oak Ridge Micro-Energy, Inc.

3.8.1    Oak Ridge Micro-Energy Manufacturing Process

3.9   ITN's Lithium Technology

3.9.1    ITN Lithium Electrochromics

3.9.2    ITN Solid-State Lithium Battery

3.9.3    ITN Lithium Air Battery

3.10     Sony Thin Film And Lithium Ion Batteries For Electronics

3.11     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     PS iTHINERGY ADP

3.15.1  IPS and ITT

 

Thin Film Battery Technology

 

4. Thin Film Lithium Battery Technology

4.1   Thin Film 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

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