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市場調查報告書

高機能分離器的市場及技術的發展

High-functional Separator Market and Technology Development

出版商 SNE Research 商品編碼 310092
出版日期 內容資訊 英文 96 Pages
商品交期: 請詢問到貨日
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高機能分離器的市場及技術的發展 High-functional Separator Market and Technology Development
出版日期: 2014年07月01日 內容資訊: 英文 96 Pages
簡介

鋰離子電池(LIB)當初用於筆記型電腦和HHP等小型IT設備,不過隨著性能改善,在電動車和含能源儲存系統的各種用途中,該領域擴大。LIB的必要條件因各種用途而異,不過在R&D中以實現大容量、高功率、低價格、高安全性為目標。LIB在擴大其用途中,對大容量的需求也提高了。為了滿足這個需求,電池材料的改善配合措施持續,分離器也朝高功能性進化。

本報告提供鋰離子電池(LIB)用分離器的開發趨勢相關調查、LIB及LIB用陰極(正極)材料市場趨勢、電池製造商的分離器消費量變化、分離器的功能、種類、設計、目前安全性相關課題、陶瓷分離器詳細內容、下一代分離器的開發趨勢、固體電解質的開發趨勢等。

第1章 鋰離子電池(LIB)市場

  • 二次鋰電池用途的擴大
  • 二次鋰電池開發的4大目標
  • LIB市場收益預測:全部門
  • LIB市場電池數預測:IT部門
  • xEV市場台數的預測
  • 全球ES市場預測:電池容量
  • LIB成本的預測(電池、包裝)
  • LIB成本結構
  • 4大主要零組件的開發藍圖
  • WPM計劃的目標
  • Galaxy S系列和二次鋰電池的演進

第2章 LIB陰極(正極)材料市場趨勢

  • 全球LIB分離器市場預測
  • 全球LIB分離器的價格
  • 全球LIB 分離器市場:各部門預測
  • 前3大電池廠商的分離器消費量

第3章 分離器的消費量:各電池製造商

  • Samsung SDI
  • LGC
  • Panasonic
  • AESC
  • 各類型

第4章 分離器的製造數量:各製造商

  • 分離器製造數量的變化
  • 旭化成
  • Toray Industries
  • SK Innovation
  • Celgard
  • Ube Industries, Ltd.

第5章 陶瓷分離器

  • 分離器的功能
  • LIB系統的熱逸散
  • 分離器的類型
    • 乾式和濕式
    • 各種製造流程比較
    • 濕式的次序及技術
    • 主要的分離器技術
  • 分離器的設計
  • 分離器的重要性增加
  • LIB和分離器的相互關係
  • 陶瓷分離器

第6章 下一代分離器的開發

  • 分離器流程的4個類型
    • 傳統不織布分離器
    • 奈米纖維不織布分離器
    • LIB不織布分離器
    • 熱性質

第7章 固體電解質

  • 固體電解質
    • 下一代LIB分離器的3大開出發目標
    • 全固體電池
    • 固體電解質
    • 固體電解質技術的目前R&D情形
    • 固體電解質的特徵
    • 固體電解質:LIPON
    • 固體電解質:LLT
    • 固體電解質:NASICON

第8章 摘要、總論

目錄
Product Code: R133SB2014011

LIBs were initially used in small IT devices such as note PCs and HHP and has expanded their territory into various applications including electric vehicles and energy storage systems along with advancements in performance. Requirements for LIBs vary from application to application. The R&D on LIBs has been directed toward high capacity, high output, low price and high safety.

Since the first commercialization in 1990, LIBs have constantly evolved in terms of performance. Taking cylindrical batteries as an example, their capacity has increased by 2 times but prices declined to less than ½. Nevertheless, the efforts to achieve high capacity is progressing slowly because little progress has been made in securing low-cost, high capacity materials for LIBs.

As LIBs have expanded their territory toward new applications, there is growing demand for high capacity. To meet the demand of the area, there have been constant efforts to improve battery materials. Among separators are evolving toward having a high level of functionality.

This report is intended to shed new light on the roles and potentials of separators in solving the current safety issue the current battery markers are facing by providing a comprehensive overview of the separator market and technology development trends, including the newly emerging technology, CCS(Ceramic Coated Separator), and other next-generation separator technologies.

Table of Contents

1. LIB Market

  • 1.1. Expanding Applications of Li-ion Secondary Batteries
    • 1.1.1. Li-ion Secondary Battery Applications by Capacity
  • 1.2. 4 Key Targets for Development of Li-ion Secondary Batteries
    • 1.2.1. R&D Priority Areas in Li-ion Secondary Batteries by Generation
  • 1.3. LIB market forecast -all segments [2011-2018, Revenue]
  • 1.4. LIB Market Forecast- IT Segment [2012-2018, Number of Cells]
    • 1.4.1. LIB Market Forecast [2012-2018]
  • 1.5. xEV Market Forecast [2012-2018, number of vehicles]
    • 1.5.1. xEV Market Forecast [Battery Capacity]
  • 1.6. Global ESs Market[2012-2018, Battery Capacity]
  • 1.7. LIB Cost Forecast[Cell, Pack]
  • 1.8. LIB Cost Structure
  • 1.9. Roadmap for Development of 4 Key LIB Components
  • 1.10. WPM Project Goals
  • 1.11. Evolution of Li-ion Secondary Batteries with Galaxy S Series

2. LIB Cathode Material Market Trend

  • 2.1. Global LIB Separator Market Forecast[2010-2020]
    • 2.1.1. CAGR Forecast
    • 2.1.2. Market
    • 2.1.3. Market Forecast [m2 base]
  • 2.2. Global LIB Separator Price
    • 2.2.1. Separator Price Erosion Trend [2009-2013]
    • 2.2.2. Separator Price Forecast [2014-2020]
  • 2.3. Global LIB Separator Market Forecast by Segment
    • 2.3.1. Separator Market Forecast by Type[CAGR]
    • 2.3.2. Separator Market Forecast by Type[MS]
    • 2.3.3. Separator Market Forecast by Type[All Segments, Revenue]
    • 2.3.4. Separator Market Forecast by Type [Each Segment, Revenue]
  • 2.4. Separator Consumption of Top 3 Battery Makers [2012 vs. 2013]

3. Separator Consumption by Cell Maker

  • 3.1. Separator Consumption- Samsung SDI [2011-2013]
  • 3.2. Separator Consumption by LGC [2011-2013]
  • 3.3. Separator Consumption by Panasonic [2011-2013]
  • 3.4. Separator Consumption by AESC [2011-2013]
  • 3.5. Separator Consumption by Type[2009-2013]

4. Separator Production by Manufacturer

  • 4.1. Year-wise Separator Production [2011-2013]
  • 4.2. Asahi Kasei
  • 4.3. Toray
  • 4.4. SK Innovation
  • 4.5. Celgard
  • 4.6. Ube

5. Ceramic Coated Separator

  • 5.1. Functions of Separators
    • 5.1.1. Functions of Separators
    • 5.1.2. Properties of Separators
  • 5.2. Thermal Runway in LIB System
    • 5.2.1. Thermal runaway reaction
  • 5.3. Types of Separators
    • 5.3.1. Dry Separator vs. Wet Separator
    • 5.3.2. Comparison of Different Manufacturing Processes
    • 5.3.3. Key Steps and Techniques of Wet Process
    • 5.3.4. Key Separator Techniques
  • 5.4. Separator Design
  • 5.5. Increasing Importance of Separators
  • 5.6. Correlation between LIB and Separator
  • 5.7. Ceramic Coated Separator
    • 5.7.1. Cross-sectional View of LIB
    • 5.7.2. Ceramic Coated Separator Concept
    • 5.7.3. 4 Key LIB Components: Development Targets for Enhanced Battery Safety
    • 5.7.4. Comparison of CCS Base Materials
    • 5.7.5. Comparison of CCS Coating Materials
    • 5.7.6. Comparison of CCS Coating Processes
    • 5.7.7. Sumitomo CCS Coating Material
    • 5.7.8. LGC Battery Adopting CCS
    • 5.7.9. SDI Battery Adopting CCS
    • 5.7.10. Sony Battery Adopting CCS

6. Development of Next-Generation Separators

  • 6.1.1. 4 Types of Separator Processes
  • 6.1.2. Conventional Nonwoven Separator
  • 6.1.3. Nano-fibrous Nonwoven Separator
  • 6.1.4. LIB Nonwoven Separator
  • 6.1.5. Thermal Properties

7. Solid Electrolyte

  • 7.1. Solid Electrolyte
    • 7.1.1. 3 Key Development Targets for Next-Generation LIB Separators
    • 7.1.2. All Solid Battery
    • 7.1.3. Solid Electrolyte
    • 7.1.4. Current R&D Status of Solid Electrolyte Technology
    • 7.1.5. Properties of Solid Electrolyte
    • 7.1.6. Properties of Solid Electrolytes
    • 7.1.7. Solid Electrolyte : LIPON
    • 7.1.8. Solid Electrolyte : LLT
    • 7.1.9. Solid Electrolyte : NASICON
  • 8. Summary and Implications
  • 8.1. Summary
  • 8.2. Implications
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