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市場調查報告書
市場調查報告書:全球新一代電池
Worldwide Next-Generation Batteries Next-Generation Li-ion Chemistries, Advanced Zinc and Nickel Batteries, Thin-Film and Printed Batteries, and Emerging Alternative Power Sources
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市場調查報告書:全球新一代電池 是由出版商Fuji-Keizai U.S.A., Inc.在2009年01月所出版的。
這份英文市場調查報告書包含98 PAGES 價格從美金1495起跳。
本報告書內容包括:全球新一代電池的鋰離子、鋅・鎳、薄膜・印刷電池介紹、個別技術及應用動向、企業及大學、研究機構的開發動向等。內容綱要摘記如下:
第1章 電池市場概要
- 產業結構
- 產業供應鏈
- 微電池及大型電池供應企業
- 創投企業及未來的財務動向
第2章 技術概要
- 鋰電池的多樣化
- 新一代的鋰離子電池
- 鋰的挑戰者:鎳電池
- 鋰的挑戰者:鋅
- 印刷電池
- 替代能源保存技術
第3章 用途概要
- 一般用途
- 家電:產品別全球市場預測:2008年至2012年
- 油電混合電動汽車全球市場預測:2008年至2012年
- 特殊用途
- 低電力無線設備:產品別全球市場預測:2008年至2012年
- 未來微電池的用途
- 無線路電力工具:全球市場規模:2008年至2012年
- 固定型電源:2008年地區別市場規模
- 新用途:網格儲存
- 太陽能:年度安裝能力(百萬瓦):2008年至2012年
- 短期再生能源保存及網格頻率穩定化技術
第4章 製造商/開發業者、中小企業、大學、研發中心
第5章 市場預測:2008年至2016年
- 概要:全球電池市場:2008年vs2016年
- 產品分類別電池市場預測
第6章 市場佔有率
- 技術/產品分類別(2008年vs2016年)
- 充電式電池技術/產品分類市場佔有率(2008年vs2016年)
- 充電式電池技術/用途分類別市場佔有率(2008年vs2016年)
- 薄膜・印刷電池用途分類別市場佔有率(2008年vs2016年)
第7章 產品分類別研究開發動向
第8章 市場發展的促進因素及阻礙因素
- 經濟不安
- 環境、法規限制
- 應用
- 技術及最新材料
- 成本
第9章 主要調查結果
- 作為動力的用途
- 市場開發時程表:2008年至2016年
- 後・鋰離子電池
第10章 企業介紹
第11章 大學或研發中心
圖表
Abstract
Research Objectives
Batteries are a $63 billion global industry. Where consumers have gotten used
to having more capability and more power at their fingertips, batteries are
and will be the preferred energy storage solution for a long time to come.
Manufacturers of all types of commercial products - from microchips to cell
phones, lawnmowers to automobiles, medical implants to cordless power tools -
would benefit from battery technology with better performance that is lighter,
smaller, cheaper, safer and greener. Battery manufacturers are developing new
generations of batteries, in various form factors, for existing and
emerging markets:
- Batteries with more energy in smaller packages: flexible and lightweight
thin-film and/or screen-printed batteries for tiny electronic systems and
emerging micropower energy-harvesting devices, where macro trends and market
trends are converging around ecosensititives and low-power devices.
- Larger-format but lighter-weight rechargeable batteries with greater
power, higher energy, longer runtimes and better safety profiles: for the
transportation industry and advancing the market for plug-in hybrid and
all-electric vehicles.
- Ultra-large advanced batteries for storing energy from renewable,
sustainable sources: for electric utility grid services and clean-energy
generators like wind turbines and solar panels.
- Alternative, hybrid energy storage devices with attributes of both a
battery and either an ultracapacitor or a fuel cell: potentially
ground-breaking future energy storage devices that may be superior to any
batteries commonly used today.
Commercial companies, start-ups and universities are all working on new
battery designs that rely on new materials and new chemistries. Some of their
technologies are available to OEMs and product designers already. Others are
struggling to move into the production phase and may see their plans delayed
by the global recession. Some may never succeed as mainstream products at all.
The sheer number of companies and R&D centers active in battery development,
and their varied approaches, are an indication, however, that this is a
competitive market with potentially lucrative opportunities for battery makers
in years to come.
This report' s primary focus is technologically advanced secondary
(rechargeable) batteries in both large and small format. The report covers
advanced technologies as replacements for NiCd and NiMH, especially advanced
lithium-ion batteries that make use of new electrode materials and
electrolytes. It also covers printable batteries and thin-film battery stacks
as enablers of micropower applications, and hybrid battery/fuel cell systems
that are emerging as complements to consumer electronics batteries. Tables and
charts are used to give a big picture of the future growth potential for
advanced battery technologies based on the leading markets (applications). The
report includes profiles of 25 commercial (a few of them public) and
development-stage companies and their products and business strategies.
Another 12 commercial and/or university-based R&D centers are covered.
Findings and forecasts are based on a mix of primary and secondary research
sources. Fuji-Keizai USA conducted first-person telephone interviews with
select U.S.-based battery manufacturers. We focused on companies with 1)
innovative technology, 2) commercial potential as measured by relationships
with customers or partners, and 3) venture capital interest. We further
surveyed publicly available documents and white papers of battery companies,
third-party investor reports, academic research literature and technical
documents from the U.S. Department of Energy to assess state-of-the-art
technical challenges and goals.
Definition and Characteristics of Next-Generation Batteries
Next-generation batteries are technologies that have higher power density and
higher energy density, are safer, and can be put in new form factors - with
the expectation that they can also be put into mass production targeting lower
costs.
Ideal characteristics are:
- Smaller form factor (the amount of space in a device reserved for
batteries)
- Low weight
- More customizable shapes (flexibility)
- Longer cycle life (10,000 to 15,000 charges vs. <1,000 for existing
batteries)
- Shorter recharge times (e.g., recharging to almost full capacity in just
minutes)
- Composed of novel electrode materials, including nanomaterials
- Improved tolerance for extreme high and low temperatures
- Operationally safe
- Environmental friendly (i.e., nontoxic)
- Targeted to high-value and/or high-growth markets and applications
- Eventual reduced cost (e.g., potentially one-tenth the cost of today' s
NiMH or Li-ion batteries)
Table of Contents
1. Battery Market Overview
- 1.1 Battery Industry Structure
- 1.2 Battery Industry Supply Chain
- 1.3 Microbattery and Large-Format Battery Suppliers
- 1.4 Venture Capital and Future Funding Outlook
- 1.4.1 U.S. Battery Alliance: Collaborative Industry Approach with
Support from Government
2. Technology Overview
- 2.1 Ongoing Diversity of Lithium Batteries
- 2.1.1 Solid-State Lithium Polymer (LiPo) Electrolyte Technology
- 2.1.2 Lithium Phosphorus Oxynitride (LiPON): Thin-Film Microbatteries
- 2.2 Next-Generation Li-ion
- 2.2.1 Lithium Iron Phosphate
- 2.2.2 Lithium Titanate
- 2.2.3 Li-ion + Nanotechnology
- 2.3 Lithium Challengers: Nickel-based Batteries
- 2.3.1 NiMH
- 2.3.2 Nickel Zinc
- 2.4 Lithium Challenger: Zinc Power
- 2.3.4 Silver Zinc
- 2.4.3 Zinc Air
- 2.5 Printed Batteries
- 2.6 Alternative Energy-Storage Technologies
- 2.6.1 Ultracapacitors
- 2.6.2 Fuel Cells
3. Application Overview
- 3.1 Common Applications
- 3.1.1 Consumer Electronics: 2008-2012 Global Forecast, by Product
- 3.1.2 Hybrid Electric Vehicles, 2008-2012 Global Forecast
- 3.2 Special Applications (Industrial, Commercial, Professional)
- 3.2.1 Low-Power Wireless Devices: 2008-2012 Global Forecast, by Product
- 3.2.1.1 Future (Emerging) Applications for Microbatteries
- 3.2.2 Cordless Power Tools: 2008-2012 Global Battery Market Size
- 3.2.3 Stationary Power: 2008 Global Battery Market Size, by Region
- 3.3 Emerging Application: On-Grid Storage (Large-Scale Stationary)
- 3.3.1 Solar Energy: 2008-2012 Global Annual Installation Capacity
(megawatts)
- 3.3.2. Competitive Technologies for Short-Term Renewable Energy Storage
and Grid Frequency Stabilization
4. Maker/Developer, Start-Up & University/R&D Center Market Map
5. Market Forecast 2008-2016
- 5.1 Big Picture: Global Battery Market: 2008 vs. 2016
- 5.2 Total Battery Market Forecast, by Product Segment
- 5.2.1 Primary Lithium, Global Market Forecast: 2008-2016
- 5.2.2 Li-ion Global Market Forecast: 2008-2016
- 5.2.3 Microbatteries, Global Market Forecast: 2008-2016
- 5.2.4 NG Li-ion and Competitors, Global Market Forecast: 2008-2016
- 5.2.5 Hybrid Systems for Consumer Electronics Power, Global Market
Forecast: 2008-2016
6. Market Share
- 6.1 Market Share, by Major Technology/Product Segment: 2008 vs. 2016
- 6.2 Market Share, Rechargeable Battery Technology/Product Segment: 2008
vs. 2016
- 6.3 Market Share, Rechargeable Battery Technology/Application Segments:
2008 vs. 2016
- 6.4 Market Share, Thin-Film and Printed Batteries/Application Segments:
2008 vs. 2016
7. Ongoing R&D and Development Trends, by Product Segment
- 7.1 Lithium-based Batteries
- 7.1.1 Materials R&D
- 7.1.2 Large-Format Li-ion
- 7.1.3 Future: Lithium Air and Lithium Organic
- 7.2 Microbatteries
- 7.3 Nickel Batteries
- 7.4 Zinc Batteries
- 7.5 Other R&D
8. Market Drivers and Inhibitors
- 8.1 Fragile Economy
- 8.2 Environmental, Legislation and Regulatory Drivers
- 8.3 Applications Drivers
- 8.4 Technology and Advanced Materials Drivers
- 8.5 Cost-Related Drivers and Inhibitors
- 8.5.1 Materials Cost and Processing
- 8.5.2 Large-Format Batteries: Cost and Infrastructure Barriers
- 8.5.3 Microbatteries
9. Key Findings
- 9.1 Applications as the Driving Force
- 9.2 Timeline for Market Development: 2008-2016
- 9.3 Post-Li-ion
10. Commercial Companies
- 10.1 A123 Systems
- 10.2 Altair Nanotechnologies, Inc.
- 10.3 AlwaysReady, Inc. / mPhase Technologies
- 10.4 Blue Spark Technologies (formerly Thin Battery Technologies, Inc.)
- 10.5 Boston-Power, Inc.
- 10.6 Cymbet Corporation
- 10.7 Electrovaya, Inc.
- 10.8 Enable IPC Corp. (EIPC)
- 10.9 EnerDel (subsidiary of Ener1, Inc.)
- 10.10 Excellatron Solid State LLC
- 10.11 Imara Corp.
- 10.12 Infinite Power Solutions (IPS)
- 10.13 Lilliputian Systems, Inc.
- 10.14 Lithium Technology Corporation (LTC)
- 10.15 Nanoexa Corporation
- 10.16 Planar Energy Devices, Inc.
- 10.17 Power Air Corp. (PAC)
- 10.18 PowerGenix Corporation
- 10.19 Power Paper, Ltd.
- 10.20 Quallion LLC
- 10.21 SAFT Group
- 10.22 Solicore, Inc.
- 10.23 Ultralife Batteries, Inc.
- 10.24 Valence Technology, Inc.
- 10.25 ZPower, Inc. (formerly Zinc Matrix Power)
11. Universities or R&D Centers
- 11.1 University of Wisconsin-Madison, Organosilicon Research Center
- 11.2 University of California, Los Angeles (UCLA)
- 11.3 Stanford University, Department of Materials Science and Engineering
- 11.4 Rensselaer Polytechnic Institute (RPI)
- 11.5 University of Texas- Austin (UTA), Material Science and Engineering
Lab
- 11.6 Physical Science, Inc. (PSI)
- 11.7 MIT Materials Science and Engineering
- 11.8 University of Rochester
- 11.9 University of Massachusetts-Boston
- 11.10 Laboratoire de Reactivite et Chimie des Solides (Laboratory of
Reactivity and Chemistry of Solids)
- 11.11 Ohio State University (OSU)
- 11.12 CFD Research Corporation
List of Figures
- Figure 1.1 Worldwide Energy Storage Market Size, 2008 ($M)
- Figure 1.2 Worldwide Rechargeable Battery Manufacturing Concentration, by
Region
- Figure 1.3 VC Funding for Battery Start-ups (2002-2008)
- Figure 2.1 Typical Thin-Film Battery Structure
- Figure 2.2 Zinc-air batteries are a type of fuel cell.
- Figure 3.1 Consumer Electronics: 2008-2012 Global Forecast, by Product
- Figure 3.2 Hybrid Electric Vehicles, 2008-2012 Global Forecast
- Figure 3.3 Low-Power Wireless Devices: 2008-2012 Global Forecast, by
Product
- Figure 3.4 Microbatteries Complement Energy Harvesting.
- Figure 3.5 Cordless Power Tools: 2008-2012 Global Battery Market Size
- Figure 3.6 Stationary Power: 2008 Global Battery Market Size, by Region
- Figure 3.7 Solar Energy: 2008-2012 Global Annual Installation Capacity
(megawatts)
- Figure 5.1 Primary Lithium, Global Market Forecast: 2008-2016
- Figure 5.2 Li-ion Global Market Forecast: 2008-2016
- Figure 5.3 Microbatteries, Global Market Forecast: 2008-2016
- Figure 5.4 NG Li-ion and Competitors, Global Market Forecast: 2008-2016
- Figure 5.5 Hybrid Systems for Consumer Electronics Power, Global Market
Forecast: 2008-2016 (Approx. $M)
- Figure 6.1 Market Share, by Major Technology/Product Segment: 2008 vs. 2016
- Figure 6.2 Market Share, Rechargeable Battery Technology/Product Segment:
2008 vs. 2016
- Figure 6.3 Market Share, Rechargeable Battery Technology/Application
Segments: 2008 vs. 2016
- Figure 6.4 Market Share, Thin-Film and Printed Batteries/Application
Segments: 2008 vs. 2016
- Figure 7.1 Potential Future Li-ion Battery Structure
List of Tables
- Table 1.1 Public Companies in the Energy Storage Market
- Table 1.2 Key Battery Industry Participants
- Table 1.3 Global Race for Automotive-Class Li-ion Batteries: Developers
and Competing Chemistries
- Table 1.4 Top VC Deals in Energy Storage (2008)
- Table 2.1 Established and Emerging Lithium Battery Chemistries
- Table 2.2 Characteristics of Li-Phosphate and Li-Titanate Electrodes
- Table 2.3 Surveyed Companies and R&D Centers with Nano-engineered Battery
Development
- Table 5.1 Big Picture: Global Battery Market: 2008 vs. 2016
- Table 5.2 Total Battery Market Forecast, by Product Segment
- Table 7.1 Advanced Materials for Next-Generation Li-ion
- Table 7.2 Battery Performance Requirements for Mobile vs. Transportation
vs. Grid
- Table 7.3 Li-air and Li-based organic batteries: promises and R&D
challenges
- Table 7.4 Potential (Future) Alternatives to Li-ion Under Consideration
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