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市場調查報告書 - 216974

全球固體薄膜電池•印刷電池•智慧運算產品的市佔率、策略、預測:2011∼2017年

Thin Film Solid State Battery, Printed Battery, and Smarter Computing Market Shares, Strategies, and Forecasts, Worldwide, 2011 to 2017

出版商 WinterGreen Research, Inc.
出版日期 2011年10月05日 內容資訊 英文 505 Pages
價格
全球固體薄膜電池•印刷電池•智慧運算產品的市佔率、策略、預測:2011∼2017年 Thin Film Solid State Battery, Printed Battery, and Smarter Computing Market Shares, Strategies, and Forecasts, Worldwide, 2011 to 2017
出版日期: 2011年10月05日 內容資訊: 英文 505 Pages
簡介

在薄膜電池領域,固體電池技術急速進化、能源密度大幅提昇之外,將過去只能充電200次左右,提高至4萬次。促進薄膜電池市場成長的是搭載過去所沒有的功能的智慧運算技術,和創造薄膜固體薄膜裝置需求的感測網路技術等,使得2011年各家企業的業績被認為將大幅成長。市場的巨大趨勢朝向便於攜帶的產品、以網路連線功能為基礎的智慧城市、行動網路、低環境負荷的產品,這成為促進薄膜電池和印刷電池需求擴大的一大因素。

本報告,提出全球的薄膜電池與印刷電池市場,並提示至2017年的展望,介紹各家企業的市佔率和使用薄膜電池的產品、薄膜電池的技術和主要企業的檔案資料等,由下列摘要形式闡述。

報告摘要

第1章 薄膜電池與智慧運算產品的市場與動態

  • 依賴薄膜電池的智慧運算機器
  • 使用IBM WebSphere的雲端運算與虛擬化技術
  • 薄膜電池的目標市場
  • 用於可充電電池比較的主要特徵
  • 電池的種類
  • 奈米科技
  • 需要On-Printed電路板電池電源的用途
  • 電池的安全性與潛在危險性
  • 固體薄膜電池的結構
  • 做為電化學機器的電池

第2章 薄膜電池以及印刷電池的市佔率與預測

  • 薄膜電池市場
  • 薄膜電池市場的各家企業市佔率
  • 薄膜電池市場的預測
  • 依賴儀表裝置的智慧運算技術
  • 服務導向架構(SOA)市場的市佔率
  • 實現次世代系統的奈米科技
  • 實現低成本且優秀性能的薄膜電池
  • 鉛酸電池製造廠
  • 電變色技術
  • 主要的鉛酸電池製造廠
  • 薄膜電池與鋰離子電池的價格
  • 各地區的薄膜電池市場分析

第3章 薄膜電池產品概要

  • 牽引技術創新的Cymbet
  • Infinite Power Solutions(IPS)
  • Planar
  • NEC
  • Polyplus
  • Johnson
  • Excellatron
  • Oak Ridge Micro-Energy, Inc.
  • ITN的鋰技術
  • 索尼的電子機器用薄膜電池與鋰離子電池
  • 對應小型醫療機器用RFID標籤的薄膜電池與鋰離子電池
  • Prieto Battery
  • Solicore
  • Rogers
  • THINERGY

第4章 薄膜鋰電池技術

  • 薄膜電池
  • 電池的飛躍式進步
  • 利用奈米科技的策略
  • 鋅空電池與燃料電池
  • John Bates的專利
  • MEMS產品
  • 結晶矽(c-Si)製造技術的發展
  • Ascent Solar的可撓式輕量薄膜太陽電池面板技術WaveSol
  • 動態無線電
  • TAU電池
  • 以奈米複合材料紙為基礎的可撓式能源儲存裝置
  • 過渡金屬氧化物
  • 電池結構
  • 奈米科技的衝擊
  • 電池辨識的命名基準
  • 可充電電池的性能比較
  • 聚合薄膜基板
  • 微型電池的固體電解質

第5章 企業檔案資料

  • Arotech
  • Altair Nanotechnologies Inc.
  • Citic Guoan
  • Cymbet
  • Infinite Power Solutions, Inc.
  • Eveready Battery Company/Blue Spark Technologies
  • Excellatron
  • GS Nanotech
  • GS Caltex/GS Yuasa
  • IBM
  • Information Builders
  • Infinite Power Solutions
  • Inventec
  • ITN Lithium Technology
  • KSW Microtec
  • Panasonic /三洋電機
  • Maxim/Dallas
  • MicroGen
  • Micropelt
  • 三菱電機
  • NEC
  • Oak Ridge National Laboratory
  • Oak Ridge Micro-Energy
  • Planar Energy Devices
  • Leonhard Kurz/PolyIC
  • PolyPlus
  • Prieto
  • PS
  • SB LiMotive/Bosch and Samsung SDI
  • Saft
  • Samsung
  • SNC
  • Solicore
  • 索尼
  • STMicroelectronics
  • Texas Instruments
  • Thunder Sky Battery Limited
  • 東京Electron Device
  • Umicore Thin Film Products
  • Zibo Dison
  • 電池製造廠

圖表一覽表

目錄

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. 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

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 THINERGYR 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
    • 3.4.2. 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

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. 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
    • 5.4.10. 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
  • 5.23. Oak Ridge Micro-Energy
    • 5.23.1. Oak Ridge Micro-Energy, Inc.
  • 5.24. Planar Energy Devices
    • 5.24.1. DOE Selects Planar Energy for Oak Ridge National Laboratory Collaborative R&D Program to Advance Next-Generation Battery Development
  • 5.25. Leonhard Kurz / PolyIC
  • 5.26. PolyPlus
    • 5.26.1. Poly Plus Lithium Water
  • 5.27. Prieto
  • 5.28. PS
  • 5.29. SB LiMotive / Bosch and Samsung SDI
  • 5.30. Saft
    • 5.30.1. Saft, Building For Future Growth
    • 5.30.2. Attractive market positioning in high-end niche markets
    • 5.30.3. Saft Launches Lithium-Ion Battery Industrial Production At Jacksonville US Plant
  • 5.31. Samsung
    • 5.31.1. Samsung 2010 Significant Strategic Change
    • 5.31.2. Samsung Apps
    • 5.31.3. Samsung Display and Information Technology Innovations
    • 5.31.4. Samsung Cameras: Consumer-Inspired Design
    • 5.31.5. Samsung Creating a Future Home Entertainment TV
  • 5.32. SNC
  • 5.33. Solicore
    • 5.33.1. Solicore' s Primary Target Markets:
  • 5.34. Sony Corporation
    • 5.34.1. Sony Technology
  • 5.35. STMicroelectronics (NYSE:STM)
    • 5.35.1. STMicroelectronics Product Technologies
    • 5.35.2. ST Custom and Semi-Custom Chips
    • 5.35.3. ST Secure ICs
    • 5.35.4. ST Application Specific Discretes (ASD™)
    • 5.35.5. ST In-Check “Lab-on-Chip”
    • 5.35.6. ST Multi-Segment Products
    • 5.35.7. ST Microcontrollers
    • 5.35.8. ST Smart Power Devices
    • 5.35.9. ST Standard Linear and Logic
    • 5.35.10. ST Discretes
    • 5.35.11. ST Protection Devices
    • 5.35.12. ST Sensors
    • 5.35.13. ST RF
    • 5.35.14. ST Real-time Clocks
  • 5.36. Texas Instruments (TXN:NYSE)
    • 5.36.1. Texas Instruments
  • 5.37. Thunder Sky Battery Limited
  • 5.38. Tokyo Electron Device
  • 5.39. Umicore Thin Film Products
    • 5.39.1. Umicore Materials Technology Group
  • 5.40. Zibo Dison
  • 5.41. Battery manufacturers

List of Tables and Figures

Thin Film Battery Executive Summary

  • 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

Thin Film Battery Market Description and Market Dynamics

  • 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

Thin Film Battery Market Shares and Market Forecasts

  • 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: Thin Film and Printed Battery Market Shares, Dollars, 2010
  • Table 2-7: Thin Film and Printed Battery Market Shares, Dollars, Worldwide, 2010 and First Three Quarters 2011
  • Table 2-8: Thin Film Batteries, Worldwide, Market Share, 2010
  • Table 2-9: Thin Film Batteries, Worldwide, Market Share, 2010
  • Table 2-10: Printed Batteries, Worldwide, Market Share, 2010
  • Table 2-11: Printed Batteries, Worldwide, Market Share, 2010
  • Figure 2-12: Thin Film and Printed Battery Markets Forecasts Dollars, Worldwide, 2011-2017
  • Table 2-13: Thin Film and Printed Battery Market Forecasts Dollars, Worldwide, 2011-2017
  • Table 2-14: Thin Film and Printed Battery Markets Forecasts Dollars, Worldwide, 2011-2017
  • Table 2-15: Thin Film and Printed Battery Market Industry Segments, Percent, Worldwide, 2011-2017
  • Figure 2-16: Sensor Network Thin Film Battery Forecasts
  • Figure 2-17: Sensor Thin Film and Printed Battery Market Forecasts, Worldwide, Dollars, 2011-2017
  • Figure 2-18: Smart Card Thin Film and Printed Battery Market Forecasts, Dollars, Worldwide, 2011-2017
  • Figure 2-19: RFID Thin Film and Printed Battery Market Forecasts, Dollars, Worldwide, 2011-2017
  • Table 2-20: RFID Applications And Industry Solutions For Battery-Assisted Passive And Active Batteries
  • Figure 2-21: Specialized and Implantable Medical Thin Film Battery Market Forecasts, Dollars, Worldwide, 2011-2017
  • Figure 2-22: Smarter Computing Depends on Instrumented Devices
  • Figure 2-23: Smarter Planet Impact on IT
  • Table 2-24: Advantages Offered by SOA
  • Table 2-25: Services Oriented Architecture SOA Market Shares, Dollars, Worldwide, 2010
  • Table 2-26: Services Oriented Architecture SOA Application Market Shares, Dollars, Worldwide, 2010
  • Figure 2-27: Silver Nanoplates
  • Table 2-28: Thin Film Battery Unique Properties
  • Figure 2-29: Lead-Acid Battery Target Market Size
  • Figure 2-30: A123 Pricing and Margin Improvement of Lithium Ion Batteries
  • Table 2-31: Thin Film and Printed Battery Regional Market Segments, 2010
  • Table 2-32: Thin Film and Printed Battery Regional Market Segments, 2010
  • Figure 2-33: Fuel Economy Gained for Incremental Cost
  • Figure 2-34: Saft International Presence

Thin Film Battery Product Description

  • 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 THINERGYR 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
  • Figure 3-13: Planar Energy' s Solid State Batteries Spraying Materials Onto A Metal Substrate
  • Figure 3-14: NEC ORB Thin, Flexible Battery Technology
  • Figure 3-15: NEC ORB Battery
  • Figure 3-16: NEC ORB Flexible Battery
  • Table 3-17: NEC Nanotechnology Thin And Flexible Organic Radical Battery (ORB) Characteristics Of The Technologies
  • Figure 3-18: NEC Organic Radical Battery
  • Figure 3-19: PolyPlus Lithium Metal Electrodes Compatible With Aqueous And Aggressive Non-Aqueous Electrolytes
  • Figure 3-20: PolyPlus Air and Water Stable Lithium Electrode
  • Figure 3-21: Thin Film Solid State Battery Construction
  • Figure 3-22: Excellatron Charge/Discharge Thin Film Battery Profile At 25oC
  • Figure 3-23: Excellatron Charge/Discharge Thin Film Battery Profile At 150oC
  • Figure 3-24: Excellatron Capacity Charge/Discharge 150oC
  • Figure 3-25: Excellatron Capacity And Resistance Of Thin Film Battery As A Function Of Temperature
  • Figure 3-26: Excellatron Battery High Rate Pulse Discharge
  • Figure 3-27: Excellatron Pulse Discharge
  • Figure 3-28: Excellatron' s Battery (0.1 mAh) High Rate Pulse Discharge Was By a 100 mA Pulse at 80oC
  • Figure 3-29: Excellatron Long term Cyclability Of A Thin Film Solid State Battery
  • Figure 3-30: Excellatron Discharge Capacity Of Thin-Film Batteries
  • Table 3-31: Excellatron Comparison Of Battery Performances
  • Figure 3-32: Excellatron Polymer Film Substrate Battery
  • Figure 3-33: Excellatron Unique Proprietary Passivation Barrier and Packaging Solution
  • Figure 3-34: Voltage And Current Profile of a 10 mAh Excellatron Battery
  • Table 3-35: Excellatron Batteries Practical Advantages
  • Figure 3-36: 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 3-37: 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 3-38: 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 3-39: Oak Ridge Micro-Energy Manufacturing Process For Thin Film Batteries
  • Figure 3-40: Oak Ridge Micro-Energy Ceramic Wafer
  • Table 3-41: Oak Ridge Micro-Energy ORLI.0.5.CL Battery Features
  • Table 3-42: Oak Ridge Micro-Energy Consumer and Industrial Products
  • Table 3-43: Oak Ridge Micro-Energy Sensors
  • Table 3-44: Oak Ridge Micro-Energy Implantable Medical Products
  • Table 3-45: Oak Ridge Micro-Energy Government Applications
  • Table 3-46: ITN' s SSLB Solid-State Lithium Battery Target Markets
  • Table 3-47: ITN' s SSLB Technology Advantages
  • Table 3-48: ITN Technologies
  • Figure 3-49: ITN Capabilities To Develop And Deliver A Quality, Fully-Functional, Nanoscale Product
  • Table 3-50: Sony VAIOR Notebook Batteries
  • Table 3-51: Sony Devices Using Lithium Ion Batteries
  • Figure 3-52: Sony Laptop Battery
  • Figure 3-53: Prieto Battery Nanowires Li-ion Batteries Using A 3D Structure
  • Table 3-54: Prieto Battery Features

Thin FIlm Battery Technology

  • 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

Thin FIlm Battery Company Profiles

  • Table 5-0: Excellatron Solid State Market Positioning
  • Table 5-1: GS NANOTECH
  • Figure 5-2: GS Nanotech Thin Film Battery

Source:GS Nanotech

  • Figure 5-3: GS NANOTECH Thin Film Battery
  • Figure 5-4: GS Nanotech Nanotechnology

Source: GS Nanotech

  • 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 5-9 (Continued): 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 5-13 (Continued): iWay Customers
  • Table 5-13 (Continued): iWay Customers
  • Table 5-13 (Continued): iWay Customers
  • Table 5-13 (Continued): iWay Customers
  • Table 5-13 (Continued): 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
新聞稿

薄膜電池市場於2017年前將達36億美元的規模

2011年11月01日

Global Information Inc.開始銷售由WinterGreen Research, Inc.所發行的調查報告「Thin Film Solid State Battery, Printed Battery, and Smarter Computing Market Shares, Strategies, and Forecasts, Worldwide, 2011 to 2017 (全球固體薄膜電池•印刷電池•智慧運算產品的市佔率、策略、預測:2011∼2017年)」。

在薄膜電池領域,固體電池技術急速進化,除了大幅提升能源密度之外,也使過去僅有200次左右的充電次數,提高至4萬次。

促進薄膜電池市場成長的要素之一,為搭載過去所沒有功能的智慧運算技術,而造成的商業變革。薄膜固體狀態裝置的需求來自感測器網路技術。

各家廠商期待2011年的收益可增加2倍以上。薄膜電池市場逐漸從生產能力的增強,逐漸轉移至生產效率的提高、收益性的改善、以及市場的成熟化。

薄膜電池的尺寸、形狀的柔軟性為擴大需求的重要因素。捲對捲生產技術為利用捲狀塑膠材和金屬箔片,來生產電池的製程,如此一來使得薄膜電池可進行低成本的大量生產。

市場的巨大趨勢為朝向攜帶性佳的產品、以網路連線功能為基礎的智慧城市、智慧城市內的追蹤技術、環境負荷小的產品,這並牽引著薄膜電池和印刷電池的需求擴大。

普及於各種用途上的智慧卡,也是擴大需求的因素之一。以薄膜電池為動力來源的智慧卡,卡片大小雖相同,不過卻提升了共享資料庫的連線性。

全球固體薄膜電池•印刷電池•智慧運算產品的市佔率、策略、預測:2011∼2017年是由出版商WinterGreen Research, Inc.在2011年10月05日所出版的。這份市場調查報告書包含505 Pages 價格從美金3600起跳。

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