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市場調査レポート

リチウム二次電池製造業者140社の分析:化学的性質・戦略・成功

Analysis of over 140 Lithium-based Rechargeable Battery Manufacturers: Chemistry, Strategy, Success

発行 IDTechEx Ltd. 商品コード 249887
出版日 ページ情報 英文 62 Pages
納期: 即日から翌営業日
価格
こちらの商品の販売は終了いたしました。
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リチウム二次電池製造業者140社の分析:化学的性質・戦略・成功 Analysis of over 140 Lithium-based Rechargeable Battery Manufacturers: Chemistry, Strategy, Success
出版日: 2016年02月29日 ページ情報: 英文 62 Pages

当商品の販売は、2016年05月20日を持ちまして終了しました。

概要

リチウムイオン電池の事業は、数10億ドル規模の投資が続いたことにより、年間数100億ドル規模の市場へと急激な発展を遂げています。その用途はEリーダーやタブレット、ラップトップや携帯電話などにとどまらず、特に陸、水、空を行くハイブリッド&ピュアのエレクトリックビークルが将来に向けて重要視されています。しかしながら、電極や電解質の化学的性質や形態など、リチウムイオンに関するすべての事柄は変化を続けており、最新の情報に通じていることが非常に重要です。

当レポートでは、140社を超える世界のリチウム二次電池製造業者について調査し、各社の製造する電池の化学的特性、形態、優先的用途、各社の事業戦略、将来に向けた展望などをまとめています。

第1章 市場と技術

  • 電気自動車市場の予測
  • リチウムイオントラクションバッテリーのコスト予測
  • 改善の必要なポイント
  • セル・モジュール・電池パック
  • Teslaの電池戦略:勝者と敗者
  • 東芝の英国2MWエネルギー貯蔵システム向けLTO電池 (チタン酸リチウム電池)
  • A123 Venture Technologies とMITが新興したSolidEnergy との連携
  • 次世代の構造用部品
  • シリコンスポンジはリチウムイオン電池の性能を改善
  • ナノサイズのリチウムイオン電池向けシリコン酸化ケイ素電極

第2章 140社を超えるリチウム二次電池製造業者

  • リチウムイオンか他のものか?
  • 地理的分布から学ぶ教訓
  • 市場の位置付けから学ぶ教訓
  • カソードの化学的性質
  • アノードの化学的性質
  • 固体またはゲルポリマーか、ガラス質無機電解質か
  • 電解質の化学の選択
  • 格納容器
  • スーパーキャパシター:完璧に近い電池
  • リチウム二次電池の10年後
  • スーパーキャパシターとリチウムイオン電池:ひとつの事業に

IDTECHEXの調査レポート

IDTECHEXのコンサルタント

  • 世界のエレクトリックビークル数およびハイブリッド向けを含めた電池パック売上の予測
  • リチウムイオントラクションバッテリーパックの価格・性能・安全性の比較
  • リチウム二次電池の用語体系
  • リチウム二次電池製造業者および推定上の製造業者142社
    • カソード・アノードの化学的性質
    • 電解質の形態
    • ケースタイプ
    • 優先的用途
    • 顧客関係、など
目次

This report concerns lithium-based rechargeable batteries. Predominantly, they are lithium-ion but we also cover alternatives usually with no intercalation and using lithium metal. All serious analysts predict that these will be responsible for the majority of expenditure on rechargeable batteries over the coming decade, notably in the lithium-ion form. It is therefore important for those making, designing in and using such batteries to understand the variations emerging and their potential for success or failure. Unfortunately, even comprehensive listings of manufacturers and intending manufacturers are hard to find. This report clarifies the situation, revealing the product chemistry, strategy and electric vehicle success of manufacturers and intending manufacturers.

The lithium-ion "Li-ion" battery business (most of the batteries covered in this report) is growing very rapidly to many tens of billions of dollars yearly, thanks to billions of dollars continuing to be invested in the industry. Their use is widening well beyond e-readers, tablets, laptops and mobile phones with vehicles being particularly important for the future, mainly hybrid electric and pure electric vehicles by land, water and air. However, everything about Li-ion is changing, including all electrode and electrolyte chemistry and morphology, so keeping up with the what, why and when is essential. Many niche and volume opportunities are opening up for all in the value chain.

Rechargeable batteries are replacing single-use batteries. Think of what has happened with cameras. They are essential in newly successful products such as hybrid buses, Mars landers, automatic underwater vehicles and silent electric aircraft. Demand has entered the fast growth phase.

For the first time, we analyse over 140 manufacturers and putative manufacturers across the world concentrating on the chemistry and format of their batteries, EV sales success (where that is a chosen focus) and strategy in a detailed table, with separate explanation and easy-to-understand pie charts of analysis. Lucid, easily read text gives problems, opportunities and view of the future globally.

Analyst access from IDTechEx

All report purchases include up to 30 minutes telephone time with an expert analyst who will help you link key findings in the report to the business issues you're addressing. This needs to be used within three months of purchasing the report.

Table of Contents

1. MARKETS AND TECHNOLOGY

  • 1.1. Electric vehicle market forecasts 2015-2026
  • 1.2. Global electricity storage market for renewables
  • 1.3. Lithium-ion traction battery cost forecasts
  • 1.4. What needs to be improved?
    • 1.4.1. Wearable electronics problems
    • 1.4.2. Mobile phone/Internet of People problems
    • 1.4.3. Internet of Things and other network problems
  • 1.5. Cells - modules - battery packs
  • 1.6. Tesla's Battery Coup - Winners and Losers
  • 1.7. Toshiba LTO battery for UK 2MW energy storage system
  • 1.8. A123 Venture Technologies collaboration with MIT start-up SolidEnergy
  • 1.9. Structural components are the future
  • 1.10. Silicon sponge improves lithium-ion battery performance
  • 1.11. Nano-sized silicon oxide electrode for lithium ion batteries
  • 1.12. Printable solid-state Lithium-ion batteries

2. OVER 140 LITHIUM-BASED RECHARGEABLE BATTERY MANUFACTURERS

  • 2.1. Lithium-ion or something else?
  • 2.2. Lessons from geographical spread
  • 2.2. Top EV battery suppliers
  • 2.3. Lessons from market positioning
  • 2.4. Cathode chemistry
    • 2.4.1. Can NMC cathodes improve a great deal?
  • 2.5. Anode chemistry
    • 2.5.1. Charging portable electronics in ten minutes
    • 2.5.2. Extending the lifetime of lithium-ion batteries
  • 2.6. Solid or gel polymer or glassy inorganic electrolyte and choice of chemistry
  • 2.7. Choice of electrolyte chemistry
  • 2.8. Containment cases
  • 2.9. Near perfect batteries are supercapacitors
  • 2.10. Where will we be in ten years' time with lithium-based rechargeable batteries?
  • 2.11. Supercapacitors and lithium-ion batteries are now one business

IDTECHEX RESEARCH REPORTS

IDTECHEX CONSULTANCY

TABLES

  • 1.1. IDTechEx forecasts for number thousands of electric vehicles and therefore battery packs including for hybrids sold by year globally 2015-2026
  • 1.2. Battery packs for 45 categories of electric vehicle land, water and air at one per vehicle
  • 1.3. Comparison of the price, performance, safety compromise of lithium-ion traction battery packs
  • 2.1. Nomenclature for lithium-based rechargeable batteries
  • 2.2. 143 manufacturers and putative manufacturers of lithium-based rechargeable batteries with country, cathode and anode chemistry, electrolyte morphology, case type, applicational priorities and customer relationships, if any, in sel

FIGURES

  • 1.1. IDTechEx forecasts for number millions of electric vehicles and therefore battery packs including for hybrids sold by year globally 2015-2026
  • 1.2. Battery packs for 45 categories of electric vehicle land, water and air at one per vehicle
  • 1.3. Comparison of cells, modules and battery packs
  • 1.4. Field emission scanning electron microscope (FE-SEM) images of the raw SiO (a), plasma sprayed (PS-PVD) powder with CH4 addition (C/Si = 1) (b) and its higher magnification.
  • 1.5. High resolution transmission electron microscopy images of the PS-PVD Si core and SiOx shell composites processed (a) without and (b) with 1.1 slm methane (CH4) gas addition. The CH4 promotes the reduction of SiO and decreases the
  • 1.6. PRISS (PRIntable Solid-State battery),
  • 2.1. Top electric vehicle lithium-ion battery suppliers in 2014 by MWh
  • 2.2. Planar Energy roadmap
  • 2.3. Number of manufacturers making or preparing to make lithium-ion vs other types of lithium-based battery % rounded
  • 2.4. Manufacturers of lithium-based rechargeable batteries by country % rounded
  • 2.5. Priority applicational sectors for lithium-based rechargeable battery manufacturers, some having more than one priority
  • 2.6. Examples of winners in niche and volume sales of lithium-ion batteries by market sector and positioning
  • 2.7. The cathode chemistry chosen by 143 manufacturers of lithium based batteries, some choosing several options
  • 2.8. The anode chemistry chosen by 143 manufacturers of lithium based batteries, some choosing several options
  • 2.9. Polymer, glassy inorganic and liquid electrolyte choice between 143 manufacturers of lithium-based batteries
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