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先進鋰離子電池及後鋰電池技術·市場·預測:2016-2026年

Advanced and Post Lithium-ion Batteries 2016-2026: Technologies, Markets, Forecasts

出版商 IDTechEx Ltd. 商品編碼 341083
出版日期 內容資訊 英文 107 Slides
商品交期: 最快1-2個工作天內
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先進鋰離子電池及後鋰電池技術·市場·預測:2016-2026年 Advanced and Post Lithium-ion Batteries 2016-2026: Technologies, Markets, Forecasts
出版日期: 2016年07月01日 內容資訊: 英文 107 Slides
簡介

先進鋰離子電池及後鋰電池的市場規模預測將在2026年前達到140億美元。

本報告以先進鋰離子電池及後鋰電池技術──矽陽極材料電池,固體電池,硫磺電池,鋰空氣電池,鈉離子電池及鎂電池為焦點,提供您性能基準,課題,及商業策略等相關分析,主要企業簡介,為您概述為以下內容。

第1章 摘要整理

第2章 為何現在是後鋰電池?

  • 為何現在是後鋰電池?
  • 鋰離子電池僅僅是改善
  • 鋰離子上主要的電池製造改善點
  • 鋰離子性能即使使用新材料也漲到極限
  • 後鋰電池的熱門
  • 後鋰電池技術的候補為何?

第3章 後鋰電池的課題

  • 後鋰電池的課題
  • 新興電池對企業而言的障礙:汽車 vs. 替代利基市場區隔
  • 主流市場要件:性能和價格
  • 以成本競爭力為中心的許多課題
  • pack level的汽車鋰離子電池價格的發展

第4章 可尋址市場預測

  • 可尋址的電池市場:各終端用戶種類
  • 預測表(圖表)的評論
  • 電池容量的需求 (GWh) :各種最終用途
  • 替代利基部門的盈利預測

第5章 後鋰離子技術

  • 後鋰電池的技術
  • 各市場區隔的技術成熟度藍圖
  • 理論上的電池性能基準
  • 實際的電池性能基準

第6章 矽陽極材料電池

  • 為何選擇矽陽極材料電池?
  • 矽陽極材料
  • 矽陽極材料的主要供應商/開發者
  • 矽陽極材料的選擇:製造流程及企業/組織
  • 包含矽陽極材料的化學企業

第7章 矽陽極材料電池市場預測

  • 矽陽極材料型電池市場預測

第8章 鋰硫電池

  • 為何選擇鋰硫電池?
  • 鋰硫電池
  • 鋰硫電池:優點及缺點
  • 鋰硫:多硫化物的溶解性問題
  • 硫磺電池的課題建議的解決方案
  • 案例研究:Oxis Energy
  • Oxis Energy :技術的發展途徑

第9章 鋰硫電池的預測

  • chiumu硫磺電池市場預測
  • 固體電池
  • 為何選擇固體電池?

第10章 固體電池

  • 固體電解質:離子傳導率·溫度別
  • 鋰離子電池 vs. 固體電池
  • 目前固體薄膜電池產品
  • 固體電池的各世代
  • 固體材料及致力於開發的企業/組織

第11章 固體電池的預測

  • 固體電池市場預測

第12章 鋰電容器

  • 鋰電容器
  • 命名法
  • 超級電容器·混合超級電容器
  • 奈米混合電容器 (NHC)
  • 混合超級電容器的發展

第13章 鋰電容器的預測

  • 競爭情形
  • OEM的觀點

第14章 鈉離子電池的預測

  • 鈉離子電池

第15章 鋰氣/O2電池

  • 鋰空氣電池

第16章 鎂電池

  • 鎂Insertion陽極材料
  • 鎂陽極材料用電解質
  • 鎂金屬陽極材料電池的開發
  • 鎂金屬陽極材料電解質的開發

第17章 技術課題的摘要

第18章 企業簡介

  • Amprius
  • Bess-tech
  • California Lithium Battery Inc (CalBattery)
  • EnerG2
  • Enevate Corporation
  • Enwair Energy Technologies Corp
  • Faradion
  • 古河電氣工業
  • Grafentek
  • Graphenea
  • Ilika Technologies
  • JSR Micro, Inc
  • Nexeon Ltd
  • NOHMs
  • OneD Materials LLC
  • OXIS Energy
  • Sakti3
  • SolidEnergy
  • Wildcat Discovery Technologies
  • XG Sciences
  • Yunasko Ltd
  • Zeptor Corporation

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目錄

Advanced and post lithium-ion batteries will account for $14 billion by 2026.

Lithium-ion is the best battery technology we have ever seen. It has increased energy density by 5% per year and decreased its cost at 8% per year. However it will not achieve transformative factors of five in cost and performance and this is just because of the inherent material limitations.

A new generation of battery technologies will be necessary in order to address the existing and future challenges of the increasingly complex energy systems our society will require. Better batteries will be required not only in electric cars and consumer electronics but in wearable electronics, electric boats and aircrafts, in your house, office and communities.

Whilst existing battery technologies such as lead acid and lithium-ion batteries will dominate the battery market in the following 10 years, advanced and post lithium-ion batteries given the right conditions can potentially take a considerable dent of about 10% of whole battery market. This is mainly because some of them are already in use in niche segments that will present high growth in the following 10 years.

This report focuses on advanced and post lithium-ion battery technologies: silicon anode batteries, solid state batteries, sulphur batteries, lithium air batteries, sodium-ion batteries, magnesium batteries and lithium capacitors. A performance benchmark is presented based on practical results achieved so far from different organisations from start-ups, established companies and research organisations. We analyse challenges and commercial strategies by the companies developing them and provide a 10 year market forecast, 2016-2026. We provide profiles of the key companies involved in the development and commercialisation of these technologies. Our coverage is global including activities from the US to Asia.

IDTechEx builds upon its 15 years' experience in analysing 45 electric vehicle segments, the future of electronic devices and emerging energy storage technologies in order to provide a comprehensive analysis of the current state of development of these technologies and its market potential. We have conducted several interviews with key companies and organisations developing these technologies and attended conferences around the world in which highlights of these technologies have been presented.

Figure 1. Market value forecasts for
battery technology types per market segment
(full chart included in the report)

                     Source: IDTechEx report "Advanced and Post Lithium-ion Batteries 2016-2026".

Figure 2. Battery value chain players

                     Source: IDTechEx report "Advanced and Post Lithium-ion Batteries 2016-2026".

Figure 3. Maturity of six technology types (A-F)
per market segment (full table included in the report)

                     Source: IDTechEx report "Advanced and Post Lithium-ion Batteries 2016-2026".

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Table of Contents

1. EXECUTIVE SUMMARY

2. WHY POST LITHIUM ION BATTERIES NOW?

  • 2.1. Why Post Lithium Ion batteries now 2015?
  • 2.2. Lithium ion batteries are only incrementally improving
  • 2.3. Key cell manufacturing improvements in Li ion between 2007 and 2012
  • 2.4. Li ion performance will plateau even with new materials
  • 2.5. Interest in post Li ion batteries has been rising
  • 2.6. What are post Li ion battery technology candidates?

3. CHALLENGES FOR POST LITHIUM ION BATTERIES

  • 3.1. Challenges for Post Lithium Ion Batteries
  • 3.2. Barriers for new start up battery companies: Automotive vs Alternative Niche Segments
  • 3.3. Mainstream market requirements: Performance and price
  • 3.4. Cluster challenges for cost competitiveness
  • 3.5. Automotive Lithium Battery Price evolution at pack level

4. ADDRESSABLE MARKET FORECAST 2016-2026

  • 4.1. Addressable battery market by end user segment in $ billion
  • 4.2. Comments on forecast chart
  • 4.3. Battery volume demand in GWh by end use segment 2015-25
  • 4.4. Profitability estimation of alternative niche segment

5. POST LITHIUM ION TECHNOLOGIES

  • 5.1. Technologies of Post Lithium-Ion Batteries
  • 5.2. Technology maturity roadmap per market segment
  • 5.3. Benchmarking of theoretical battery performance
  • 5.4. Benchmarking of practical battery performance 2015

6. SILICON ANODE BATTERIES

  • 6.1. Why Silicon anode batteries?
  • 6.2. Silicon anode
  • 6.3. Key suppliers/developers of silicon anode materials
  • 6.4. Selection of silicon anode materials by manufacturing process and company/organisation (1)
  • 6.5. Chemical companies involved in silicon anode materials (selection)

7. MARKET FORECASTS FOR SI ANODE BATTERIES

  • 7.1. Silicon anode based battery market forecast
  • 7.2. Silicon anode based battery market forecast

8. LITHIUM SULPHUR BATTERIES

  • 8.1. Why Lithium Sulphur batteries
  • 8.2. Lithium Sulphur Batteries
  • 8.3. Lithium Sulphur batteries: Pros and Cons
  • 8.4. Lithium Sulphur - Polysulphides solubility issue
  • 8.5. Solutions proposed to sulphur battery challenges à Electrolyte approaches
  • 8.6. Case Study: Oxis Energy
  • 8.7. Oxis Energy - technology development paths

9. MARKET FORECASTS FOR LI-S BATTERIES

  • 9.1. Lithium Sulphur Battery Market Forecast
  • 9.2. Solid State Batteries
  • 9.3. Why Solid State batteries?

10. SOLID STATE BATTERIES

  • 10.1. Solid electrolytes by ionic conductivity and temperature
  • 10.2. Lithium ion batteries vs Solid state batteries
  • 10.3. Solid state thin film battery products today
  • 10.4. Different generations of solid state batteries
  • 10.5. Solid state materials and companies/organisations working on them
  • 10.6. Solid state materials and companies/organisations working on them.

11. SOLID STATE BATTERY FORECASTS

  • 11.1. Market forecast for solid state batteries

12. LITHIUM CAPACITORS

  • 12.1. Lithium capacitor
  • 12.2. Nomenclature
  • 12.3. Supercapacitors and Hybrid supercap.
  • 12.4. Nano hybrid capacitor (NHC)
  • 12.5. Hybrid Supercapacitors evolution

13. LITHIUM CAPACITOR FORECAST

  • 13.1. Competitive landscape
  • 13.2. OEM's point of view

14. SODIUM ION BATTERY FORECASTS

  • 14.1. Sodium ion batteries

15. LITHIUM AIR/O2 BATTERIES

  • 15.1. Lithium air batteries

16. MAGNESIUM BATTERIES

  • 16.1. Magnesium insertion anodes
  • 16.2. Electrolytes for Mg anodes
  • 16.3. Developments in magnesium metal anode batteries
  • 16.4. Magnesium metal anode electrolyte developments

17. SUMMARY OF TECHNOLOGY CHALLENGES

  • 17.1. Summary of technology challenges

18. COMPANY PROFILES

  • 18.1. Amprius
  • 18.2. Bess-tech
  • 18.3. California Lithium Battery Inc (CalBattery)
  • 18.4. EnerG2
  • 18.5. Enevate Corporation
  • 18.6. Enwair Energy Technologies Corp
  • 18.7. Faradion
  • 18.8. Furukawa Electric Group
  • 18.9. Grafentek
  • 18.10. Graphenea
  • 18.11. Ilika Technologies
  • 18.12. JSR Micro, Inc
  • 18.13. Nexeon Ltd
  • 18.14. NOHMs
  • 18.15. OneD Materials LLC
  • 18.16. OXIS Energy
  • 18.17. Paraclete Energy Corp
  • 18.18. Sakti3
  • 18.19. SolidEnergy
  • 18.20. Wildcat Discovery Technologies
  • 18.21. XG Sciences
  • 18.22. Yunasko Ltd
  • 18.23. Zeptor Corporation

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