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Nanotechnology and Thin Film Lithium and Lithium Ion Battery Market
Opportunities, Market Forecasts, and Market Strategies, 2006- 2012
Description:
There is a $50B battery market worldwide in 2005. Within that market is a place for evolution of next
generation devices; of which include thin film Lithium and Lithium Ion batteries. These technologies depend
on the further evolution of nanotechnology.
Thin film batteries (TFB) are positioned to become the next generation of lithium batteries for portable
electronic applications. Research has showed the chemistry of turning the hazardous liquid lithium ion into a
solid, creating the ability to use lithium ion as an ink or particle that in not hazardous.
Results obtained in the laboratory are being translated into commercial products. Thin film solid-state
batteries are because the lithium ion that is implemented as a liquid electrolyte in traditional batteries is
replaced with a solid form of the chemical. Thin film solid-state batteries are constructed by depositing the
components of the battery as thin films (less than 5µm) on a substrate. The typical structure of a thin
film solid-state battery can be illustrated in a schematic cross section.
A sputtered LiPON electrolyte film covers the cathode and a portion of the substrate up to the anode current
collector in order to insulate the substrate from direct contact with the anode. For a thin film lithium battery,
a thin layer of lithium metal is thermally evaporated on LiPON as the anode.
For a thin film lithium ion battery, a thin layer of Sn3N4 (deposited by sputtering of Sn target in N2
environment) is used as the anode. Finally, the battery is sealed. Next-generation, ultra-thin rechargeable
batteries are for card-type applications. Nano energy devices are thinner than a piece of paper. When
embedded in micro devices it acts as an autonomous power source, enabling new functions. Micro battery
devices support the development of next generation self-powered micro systems.
A battery is one of two kinds of electrochemical devices that convert the energy released in a chemical
reaction directly into electrical energy. In a battery, the reactants are stored close together within the battery
itself. In a fuel cell the reactants are stored externally. Both thin film batteries and micro fuel cells promise to
further evolve during the forecast period.
This conversion of chemical energy to electrical energy is potentially 100% efficient, whereas the conversion
of chemical energy to mechanical energy via a thermal conversion (e.g., internal combustion of gasoline in
cars) always results in heat transfer losses limiting the intrinsic efficiency.
The effective surface area of an electrode can be increased without increasing its physical size by making its
surface porous and using materials with very fine particle size. This can increase the effective surface area of
the electrodes by 1000 to 100,000 times enabling higher current rates to be achieved.
In this manner, nanotechnology holds enormous promise for this market. Nanoparticles can be developed
that are used to make a surface very porous and increase the effective surface area of the electrodes.
High capacity cells require large volumes of electrolyte that must be accommodated between the electrodes.
This has a double effect in reducing the cell power handling capability. The electrodes must be smaller and
further apart to make space for the extra electrolyte and hence they can carry less current. Increased
volume of the electrolyte means it takes longer for the chemical actions associated with charging and
discharging to propagate completely through the electrolyte to complete the chemical conversion process.
Thin film battery markets in the trial stage in 2005 are anticipated to reach 10 billion units, $11 billion dollars
by 2012. The market driving forces are those of wide expansion of portable devices in that time frame.
Market development depends on volume capacity. High volume makes the price per unit less to
manufacture. With 3.5 billion cell phone users and 67 billion RFID tags per year anticipated in that time
frame, it is anticipated that the volumes will be in place to create commercial demand for thin film batteries.
Key Topics
- THIN FILM BATTERY MARKET SHARES
- THIN FILM BATTERY MARKET FORECASTS
- Thin Film Battery Market Positioning
- Impact Of Nanotechnology
- Thin Film Battery For Cell Phones
- Thin Film Solid-State Battery Construction
- THIN FILM BATTERY FOR SMART CARDS
- BATTERY DEPENDS ON CHEMICAL ENERGY
- THIN FILM BATTERY FOR PORTABLE PC'S
- SMART ACTIVE LABELS
- THIN FILM BATTERY FOR IMPLANTABLE MEDICAL DEVICES
- BATTERY-ASSISTED TAGS
- THIN FILM BATTERY FOR RFID TAGS
- CELL CONSTRUCTION
- NAMING STANDARDS FOR CELL IDENTIFICATION
- POLYMER FILM SUBSTRATE
Report Methodology
This is the 269th report in a series of market research reports that provide forecasts in communications,
telecommunications, the internet, computer, software, and telephone equipment. The project leaders take
direct responsibility for writing and preparing each report. They have significant experience preparing
industry studies. Forecasts are based on primary research and proprietary data bases. Forecasts reflect
analysis of the market trends in the segment and related segments. Unit and dollar shipments are analyzed
through consideration of dollar volume of each market participation in the segment. Market share analysis
includes conversations with key customers of products, industry segment leaders, marketing directors,
distributors, leading market participants, and companies seeking to develop measurable market share. Over
200 in-depth interviews are conducted for each report with a broad range of key participants and opinion
leaders in the market segment
Contents:
NANOTECHNOLOGY AND THIN FILM NICAD BATTERY EXECUTIVE SUMMARY
Thin Film Battery Market Positioning
Thin Film Battery Market Driving Forces
Thin Film Battery Market Shares
Thin Film Battery Market Forecasts
1. THIN FILM NICAD BATTERY MARKET DESCRIPTION AND MARKET DYNAMICS
1.1 Thin Film Solid-State Battery Construction
1.2 Battery Is Electrochemical Device
1.3 Battery Depends On Chemical Energy
1.3.1 Characteristics Of Battery Cells
1.3.2 Batteries Are Designed Differently For Various Applications
THIN FILM NICAD BATTERY MARKET SHARES AND MARKET FORECASTS
2. THIN FILM NICAD BATTERY MARKET SHARES AND MARKET FORECASTS
2.1 Thin Film Battery Market Positioning
2.1.1 Thin Film Battery Market Driving Forces
2.2 Thin Film Battery Market Forecasts
2.3 Micro Fuel Cell Market Shares
2.3.1 Micro Fuel Cell Companies
2.3.2 Toshiba Direct Methanol Micro Fuel Cell
2.3.3 Medis Battery -Recharging Fuel Cell
2.3.4 Japanese Micro Fuel Cell Commercialization
2.3.5 United States Micro Fuel Cell Commercialization
2.3.6 Motorola
2.3.7 Ballard
2.3.8 Smart Fuel Cell AG (SFC) Fuel Cell Cost Reduction
2.4 Micro Fuel Cell Market Forecasts
2.4.1 Micro Fuel Cell Market Unit Shipment Forecasts
2.4.2 Micro Fuel Cell Market Shipment Forecasts, Dolla rs
2.4.3 Micro Fuel Cells Replace Portable Batteries
2.4.4 Viable Commercial Micro Fuel Cell
2.5 Digital Device Forecasts
2.6 Micro Fuel Cell Industry Segment Analysis
2.7 Thin Film NiCad Cell Phone Batteries
2.8 Thin Film Batteries On Smart Cards
2.9 Thin Film Batteries in Implantable Medical Devices
2.9.1 Thin Film Batteries in Implantable Medical Devices Market Forecasts
2.9.2 Thin Film Batteries In Semiconductors And Integrated Circuits
2.10 Thin Film Batteries For Portable PCs
2.11 Thin Film Batteries On RFID Tags
2.11.1 RFID Technical Challenges
2.11.2 RFID Market Shares
2.11.3 RFID EPC Tag Market Shares
2.11.4 Symbol Technologies
2.11.5 Philips
2.11.6 Texas Instruments (TI)
2.11.7 Fujitsu RFID Tags
2.11.8 Impinj
2.11.9 EM Microelectronic
2.11.10 Radio Frequency Identification (RFID) Market Driving Forces
2.11.11 RFID Market Forecasts
2.11.12 RFID EPC Tag Dollar Shipments
2.11.13 RFID EPC Tag Unit Shipments
2.12 Thin Film Battery Automotive And National Security Market
2.12.1 Integrated Thin Film Battery Personal Transport Power System Market Driving Forces
2.12.2 US And Its Allies Are Changing The Military Landscape
2.12.3 Thin Film Battery Transportation Market
2.12.4 Thin Film Battery Automotive Batteries
2.13 Thin Film Battery Stationary Power Market
2.14 Rechargeable Battery Industry
2.15 Market Driving Force For Micro Fuel Cells
2.16 Market Driving Force For Thin Film Batteries
2.17 Thin Film Battery Market Shares
2.17.1 Excellatron
2.17.2 VoltaFlex
2.17.3 Procter & Gamble / Duracell
2.17.4 Sony
2.17.5 SANYO Electric
3. THIN FILM NICAD BATTERY PRODUCT DESCRIPTION
3.1 Front Edge Technology (FET)
3.1.1 Front Edge Technology (FET) NanoEnergy Ultra -Thin Rechargeable Battery Technical Information
3.1.2 Front Edge Technology (FET) NanoEnergy High Temperature Performance
3.1.3 Front Edge Technology (FET) NanoEnergy Low Temperature Performance
3.1.4 Front Edge Technology (FET) NanoEnergy Safety and toxicity
3.2 Thin Film Solid State Batteries Construction
3.2.1 Excellatron High Rate Deposition Process (Plasma Enhanced Chemical Vapor Deposition)
3.2.2 Excellatron Process To Produce Thin Film Batteries
3.2.3 Excellatron Thin Film Battery Applications
3.2.4 Excellatron Thin Film Battery Smart Cards
3.2.5 Excellatron Thin Film Battery Long-Term Shelf Life
3.3 Eveready
3.4 ORNL Thin-Film Lithium Battery
3.4.1 ORNL Battery On A Chip
3.4.2 ORNL Thin-Film Lithium Cells
3.4.3 ORNL Thin-Film Lithium Cell Film Deposition
3.4.4 Eveready
3.5 Alternative Power for Autonomous MEMs
3.5.1 Solar Power
3.5.2 MEMS Research Laboratories
3.5.3 Thermoelectric Power
3.5.4 Alternative Energy Power Sources Useful For MEMs Applications
3.5.5 Micro Fuel Cells
3.5.6 Nuclear Batteries
3.5.7 Biomolecular Motor
3.6 Energy Density
3.7 Thin-Film Rechargeable Lithium Batteries UT/Battelle Oak Ridge National Laboratory
3.8 Oak Ridge Micro-Energy
3.9 Lithium Technology
3.10 Sony Lithium-Ion Cells
3.11 Sanyo Electric Co.
3.11.1 BYD
3.12 Lithium-Ion/Polymer Cell Shipment Market Shares
3.13 Ultralife Batteries
3.13.1 Lithium Technology Corporation Technology Overview
3.14 Lithium Technology Corporation (LTC)
3.15 BYD
3.16 Industries International Incorporated (INDI),
3.17 Cymbet™ Corporation
3.17.1 Cymbet Application Specific Solid Energy Technology
3.17.2 Cymbet Cells Packaging
3.17.3 Cymbet Consumer Electronics
3.17.4 Cymbet Medical Electronic Thin -Film Battery System
3.17.5 Cymbet Military Electronic Thin -Film Battery System Military Device Systems
3.17.6 Cymbet Military Electronic Thin -Film Battery System MEMs And Nanotechnology Device Systems
3.17.7 Cymbet™ Secures $16.5 Million In Private Financing
3.18 Cymbet™
3.18.1 Cymbet™ Combines The High Energy Density Of A Lithium Cobalt Oxide
3.18.2 Cymbet Thin Film Lithium Ion Cells
3.18.3 Cymbet Thin Film Battery System Advanced Features
3.18.4 Thin-Film Battery Rechargeable Solution
3.18.5 Thin-Film Battery Deposition Process
3.19 Power Paper Battery-Assisted UHF RFID Chips
3.20 Power Paper Thin And Flexible Energy Cells
3.20.1 Power Paper
3.20.2 Power Paper Customer Relationships
3.20.3 Power Paper $30 Million Funding
3.20.4 Power Paper Technology Thin And Flexible Power Applications
3.20.5 Power Paper & Graphic Solutions PowerIDT System
3.21 Power Paper Technology Platform
3.22 Graphic Solutions
3.23 EM Microelectronic
3.24 IPico
3.25 Thin and Flexible Micro-Powered Devices
3.26 Oak Ridge Micro-Energy
3.26.1 Oak Ridge Micro-Energy
3.26.2 Oak Ridge Micro-Energy Thin Film, Solid-State Batteries
3.26.3 Oak Ridge Micro-Energy Thin Film, Solid-State Batteries For Wireless Semiconductor Processing
Diagnostic Wafers
3.26.4 Oak Ridge Micro-Energy Wireless Sensors Thin -Film Battery
3.26.5 Oak Ridge Micro-Energy Wireless Sensors Thin -Film Battery Active RFID System
3.27 KSW Microtec – TempSens® Paper-Thin Battery
3.27.1 KSW Microtec AG Jewel™ Inlay
3.27.2 KSW Microtec AG Designs
3.28 Voltaflex Thin Film Batteries And Advanced Polymer Materials
3.29 VoltaFlex
3.30 Infinite Power Solutions Thin film Batteries Power Smart Cards And Radio Frequency Identification
(RFID) Tags
3.30.1 Infinite Power Solutions Thin -Film Battery for RFID Sensors
3.30.2 Infinite Power Tire Pressure And Temperature Sensor
3.31 Teledyne
3.31.1 Teledyne Thin Film Battery Cycle life
4. THIN FILM NICAD BATTERY TECHNOLOGY
4.1 Smart Active Label Consortium Standardizes Sensors to Differentiate Active from Passive
RFID Devices
4.1.1 Smart Active Label Consortium (SAL-C)
4.2 Smart Active Labels
4.2.1 Smart Active Label Consortium Extends ISO RFID Standards
4.3 Battery-Assisted Tags
4.4 Cell Construction
4.5 Impact Of Nanotechnology
4.5.1 Lithium Ion Cells Optimized For Capacity
4.5.2 Flat Plate Electrodes
4.5.3 Spiral Wound Electrodes
4.5.4 Multiple Electrode Cells 4.5.5 Fuel Cell Bipolar Configuration
4.5.6 Electrode Interconnections
4.5.7 Sealed Cells and Recombinant Cells
4.5.8 Battery Cell Casing
4.5.9 Button Cells and Coin Cells
4.5.10 Pouch Cells
4.5.11 Prismatic Cells
4.6 Thin Film Batteries
4.6.1 Thin Film Battery Timescales and Costs
4.7 Naming Standards For Cell Identification
4.7.1 High Power And Energy Density
4.7.2 High Rate Capability
4.8 Comparison Of Rechargeable Battery Performance
4.9 Polymer Film Substrate
4.10 Micro Battery Solid Electrolyte
5. THIN FILM NICAD BATTERY COMPANY PROFILES
5.1 Energizer Holdings
5.1.1 Eveready Battery Company
5.2 Excellatron
5.2.1 Excellatron Has Filed 20 Patent Applications
5.3 Front Edge Technology (FET)
5.4 Infinite Power Solutions
5.5 ITN Energy Systems
5.6 Johnson Research Thin Film Battery Products
5.6.1 Johnson Research Toys And Consumer Products
5.6.2 Johnson Research Environmental Energy Products
5.6.3 Johnson Research Energy Technology
5.7 KSW Microtec
5.7.1 KSW Microtec AG: Adhesiv e Flip Chip Technologies
5.7.2 KSW Microtec Smart Active Label Products
5.7.3 KSW Microtec AG Adhesive Flip Chip
5.8 Lithium Technology Corporation
5.8.1 Lithium Technology Centers
5.8.2 Lithium Technology Products
5.8.3 Lithium Technology Revenues
5.8.4 Lithium Technology Strategy for Growth
5.9 MPower Solutions
5.9.1 Mpower Solutions
5.9.2 MPower Solutions Product Experience
5.9.3 MPower Positioning
5.9.4 Capability
5.10 Oak Ridge Micro-Energy (OTCBB: OKME)
5.10.1 Oak Ridge Micro-Energy Chief Technical Officer
5.11 Procter & Gamble Company
5.11.1 Procter & Gamble Segments
5.11.2 Procter & Gamble Business Model
5.11.3 Procter & Gamble Key Product Categories
5.11.4 Procter & Gamble Key Customers
5.11.5 Duracell Batteries
5.12 Ultralife Batteries
5.12.1 Ultralife Target Markets
5.13 VoltaFlex Corporation
List of Tables and Figures
NANOTECHNOLOGY AND THIN FILM NICAD BATTERY EXECUTIVE SUMMARY
Figure ES-1 Worldwide Thin Film Battery Market Shares, 2005
Figure ES-2 Worldwide Thin Film Battery Market Forecasts, Dollars, 2006-2012
THIN FILM NICAD BATTERY MARKET DESCRIPTION AND MARKET DYNAMICS
Figure 1-1 Typical Structure Of A Thin Film Solid State Battery
Table 1-2 Characteristics Of Battery Cells
THIN FILM NICAD BATTERY MARKET SHARES AND MARKET FORECASTS
Figure 2-1 Worldwide Thin Film Battery Market Forecasts, Units, 2006-2012
Table 2-2 Worldwide Thin Film Battery Market Forecasts, Units, 2006-2012
Figure 2-3 Worldwide Thin Film Battery Market Forecasts, Dollars, 2006-2012
Table 2-4 Worldwide Thin Film Battery Market Forecasts, Dollars, 2006-2012
Figure 2-5 Worldwide Micro Fuel Cell Market Shares, Dollars, 2004
Table 2-6 Toshiba Handheld Fuel-Cell Technology Specifications
Figure 2-7 Worldwide Micro Fuel Cell Market Forecasts, Units, 2005-2013
Figure 2-8 Worldwide Micro Fuel Cell Market Forecasts, Dollars, 2005-2013
Table 2-9 Worldwide Micro Fuel Cell Market Forecasts, Units and Dollars, 2005-2013
Figure 2-10 Worldwide Micro Fuel Cell Market Segments, Dollars, 2004
Figure 2-11 Worldwide 2G, 2.5G, and 3G Market Forecasts, Units and Dollars, 2005-2011
Table 2-12 Worldwide 2G, 2.5G, and 3G Market Forecasts, Units, 2006-2011
Figure 2-13 Worldwide Thin Film Battery Cell Phone Market Forecasts, Dollars, 2006-2012
Figure 2-14 Worldwide Thin Film Battery Smart Card Market Forecasts, Dollars, 2006-2012
Figure 2-15 Worldwide Thin Film Battery Implantable Health Care Devices Market Forecasts, Dollars, 20062012
Figure 2-16 Worldwide Thin Film Battery Integrated Circuit Market Forecasts, Dollars, 2006-2012
Figure 2-17 Worldwide Thin Film Battery Portable PC Market Forecasts, Dollars, 2006-2012
Figure 2-18 Worldwide Thin Film Battery RFID Market Forecasts, Dollars, 2006-2012
Table 2-19 Worldwide Radio Frequency Identification RFID IC Shipments, Dollars, 2003 and 2004
Figure 2-20 Worldwide Radio Frequency Identification RFID Active Tag Shipments, Dollars, 2004
Table 2-21 Radio Frequency Identification (RFID) Market Driving Forces
Table 2-22 Radio Frequency Identification (RFID) Market Aspects
Table 2-23 Radio Frequency Identification (RFID) Market Benefits
Table 2-24 Radio Frequency Identification (RFID) Target Markets
Figure 2-25 Worldwide Radio Frequency Identification (RFID) Tag Reader, and IC Market Forecasts,
Shipments, Dollars, 2005-2011
Table 2-26 Worldwide Radio Frequency Identification (RFID) Market Forecasts, Shipments, Dollars, 2005-2011
Figure 2-27 Worldwide Radio Frequency Identification (RFID) Tag and Reader, Market Forecasts, Shipments,
Units and Dollars, 2005-2011
Table 2-28 Worldwide Radio Frequency Identification (RFID) Tag and Reader, Market Forecasts, Shipments,
Units and Dollars, 2005-2011
Figure 2-29 Worldwide Radio Frequency Identification (RFID) EPC Tag Market Forecasts, Shipments, Dollars,
2005-2011
Figure 2-30 Worldwide Radio Frequency Identification (RFID) EPC Tag Market Forecasts, Shipments, Units of
Tags, 2005-2011
Table 2-31 Commercialization Challenges Of The Automotive, Truck, and Bus Thin Film Battery Industry
Table 2-32 Integrated Thin Film Battery Personal Transport Power Systems
Table 2-33 Requirements For Advanced Power Sources In A Variety Of Military Applications
Table 2-34 Large-Format Lithium-Ion Battery Key Advantages
Table 2-35 Large-Format Lithium-Ion Batteries Key Advantages Over Competing Technologies For
Transportation Applications
Table 2-36 Large-Format Lithium-Ion Batteries Offer Key Advantages Over Competing Technologies For
Stationary Power Markets
Table 2-37 Thin Film Battery Paths To Markets
Table 2-38 Micro Fuel Cell Market Driving Forces
Table 2-39 Market Aspects For Micro Fuel Cells
Table 2-40 Micro Fuel Cell Technology Issues
Table 2-41 Micro Fuel Cell Market Issues
Table 2-42 Market Driving Forces For Thin Film Batteries
Figure 2-43 Worldwide Thin Film Battery Market Shares, 2005
Table 2-44 Worldwide Thin Film Battery Pre-Commercial Shipments Market Shares, Dollars, 2005
Table 2-45 Thin Film Battery Market Participants
THIN FILM NICAD BATTERY PRODUCT DESCRIPTION
Table 3-1 Front Edge Technology (FET) NanoEnergy Ultra-Thin Rechargeable Battery Key Features
Table 3-2 Front Edge Technology (FET) NanoEnergy Ultra-Thin Rechargeable Battery Technical Information
Table 3-3 Thin Film Solid State Battery Construction
Table 3-4 Thin Film Lithium Battery Construction
Table 3-5 Thin Film Solid State battery Safety Security Protections
Table 3-6 Excellatron Deposition Of Solid State Electrolyte By The PECVD Process
Table 3-7 Excellatron Thin Film Battery Benefits
Figure 3-8 Excellatron Thin Film Batteries
Table 3-9 ORNL Solid-State Thin-Film Batteries Offer Advantages
Table 3-10 Major Challenges To ORNL For The Development Of The Lithium Cells
Table 3-11 Advantages Of Using Alternative Energy Power Systems To Supply Micro Power To MEMs
Table 3-12 Selected Lithium Technology Corporation Customers
Table 3-34 Cymbet™ Thin-Film Battery System Key Features
Table 3-14 Cymbet™ Thin-Film Battery System Smart Card Applications
Table 3-15 Cymbet Application Specific Solid Energy Technology
Table 3-16 Cymbet Application Specific Solid Energy Technology Recharge Characteristics
Table 3-17 Cymbet Surface mountable battery Packaging Key features
Table 3-18 Cymbet Consumer Electronics Lightweight Energy Source Key Features
Table 3-19 Cymbet Medical Electronic Thin-Film Battery System Key Features
Table 3-20 Cymbet Medical Electronic Thin-Film Battery System Medical Device Industry Target Markets
Table 3-21 Cymbet Military Electronic Thin-Film Battery System Military Device Systems Key Features
Table 3-22 Cymbet Thin Film Battery System Advanced Features
Table 3-23 Cymbet Thin Film Battery System Applications
Table 3-24 KSW Microtec Benefits of Smart Label Applications:
Table 3-25 KSW Microtec AG Smart Active Labels Applications
Table 3-26 KSW Microtec AG RFID Products (HF & UHF): Smart Inlays, Cards, Labels and Tickets
Applications
Table 3-27 Thin Film Battery Micro Packaging / High Density Applications
Table 3-28 Voltaflex Thin Film Battery Issues
Figure 3-29 Teledyne NanoEnergyTM Powering A Blue LED
Table 3-30 Teledyne Typical Charging Curve Of A 0.9 mAh Batter
Figure 3-31 Teledyne NanoEnergyTM discharge rates and discharge characteristics
Figure 3-32 Teledyne Thin Film Battery Capacity and Charging rate Cycles
THIN FILM NICAD BATTERY TECHNOLOGY
Table 4-1 Active Sensor Measurements
Table 4-2 Active Sensor Uses
Table 4-3 Manufacturer Intelligent Supply Chain Functions
Table 4-4 Manufacturer Intelligent Supply Chain Channels
Table 4-5 Collaborative Business Practice Business Model Aspects
Table 4-6 Common Household-Battery Sizes, Shape, and Dimensions
Table 4-7 Thin Film Battery Unique Properties
Table 4-8 Comparison of battery performances
Table 4-9 Comparison of battery performances
Table 4-10 Thin Films For Advanced Batteries
Table 4-11 Thin Film Batteries Technology
Table 4-12 Thin Film Battery / Lithium Air Batteries Applications
Figure 4-13 Polymer Film Substrate Thin Flexible battery Profiles
Figure 4-14 Design Alternatives of Thin Film Rechargable Batteries
THIN FILM NICAD BATTERY COMPANY PROFILES
Table 5-1 KSW Microtec Benefits of Smart Label Technologies
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