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リチウムイオン電池:市場動向と原材料

Lithium-ion Batteries: Market Development & Raw Materials 2018 - 2nd Edition

発行 Roskill Information Services 商品コード 422570
出版日 ページ情報 英文
納期: 即日から翌営業日
価格
本日の銀行送金レート: 1GBP=147.12円で換算しております。
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リチウムイオン電池:市場動向と原材料 Lithium-ion Batteries: Market Development & Raw Materials 2018 - 2nd Edition
出版日: 2018年03月27日 ページ情報: 英文
概要

当レポートでは、世界のリチウムイオン電池市場の現状と見通しについて調査分析しており、基本的な産業構造や最新情勢、需要量・供給量の動向見通しと主な影響要因、法令・規制および業界基準、バリューチェーンの構造とその変化の方向性、他市場に対する影響度などについて調査・考察しております。

第1章 サマリー

第2章 電池の形状・容量、産業構造

  • 電池市場におけるリチウムイオン電池の地位
  • 製品・バリューチェーン・産業構造
  • リチウムイオン電池の原材料産業に対する圧力

第3章 市場の動向と予測 (今後10年間分)

  • 市場規模の実績値・予測値:最終市場別
  • 政府の規制・法令と、業界側の要件の変化

第4章 サプライチェーン内部での各企業のポジショニング

  • サプライチェーン全体の発展動向
  • 地域・企業単位での発展動向

第5章 非鉄金属市場への影響

  • リチウムイオン電池市場への影響度:全体的な傾向、
  • リチウムイオン電池市場への影響度:重要な電池グレードの場合
目次

“Growth in Li-ion battery demand will require fundamental changes to battery raw material industries.”

Report includes:

  • Analysis report with forecasts to 2027
  • Access to the report online through Roskill Interactive for up to 5 users
  • Further background data available on request
  • Hard copy of the report on request
  • Access to the analysts for discussion around report content

The Lithium ion battery industry has developed rapidly in recent years as existing battery technologies such as NiMH and NiCd, are replaced and the advent of mass produced electric vehicles is forecast to transform the raw material requirements for their manufacture. Legislation and regulation promoting the electrification of vehicles is expected to support increasing uptake of xEVs, with market penetration exceeding 60% in major automotive markets such as Germany, China and Japan by 2027. Hybrid vehicles, including full, mild (48V) or mirco (12V) hybrid models are forecast to form the majority of xEV sales during this period, with full electric vehicles forecast to form roughly 8% of global vehicle sales in 2027. Significant investment in battery manufacturing facilities has already been made by major automotive, battery and technology companies, either directly or through the creation of joint ventures, though further investment is expected in the coming years as competition in the industry increases.

The assemblage of raw materials used in Lithium ion batteries ranges widely, from lithium, cobalt and nickel used in active cathode materials, graphite and silicon in active anode materials and specialist chemicals and plastics used intensively in binders, solvents, electrolytes and separators. Complex multi-metal cathodes have become standard for new applications, such as lithium-nickel-cobalt- manganese-oxide paired to silicon-doped blended graphite anodes in electric vehicles or lithium-iron-phosphate cathodes paired to lithium-titanium-oxide anodes for energy storage systems. The growth in demand from xEVs is also changing the chemistry of Lithium ion battery technologies, as cathode chemistries with higher energy density, lower cost of production and more stable raw material supply chains are favoured.

The new Lithium ion Battery report from Roskill provides the reader with detailed insight into the Lithium ion battery industry from sourcing of raw materials, production of different components of Lithium ion battery technologies, the use of Lithium ion batteries in end-use applications and forecast changes in their use and composition. It also provides intermediary material and battery manufacturers with abridged information on the upstream landscape, including profiles of major battery component, cell and pack manufacturers. The second edition of Roskill's Lithium ion battery report uses Roskill's 50 years of experience in analysing metal and mineral markets, including major battery raw material markets.

Roskill experts will answer your questions:

  • Who are the main producers of intermediate battery products?
  • How might new uses impact raw material requirements?
  • How will government and industry regulation impact the lithium-ion industry?
  • What is the value chain for battery raw materials?
  • Why do raw material requirements differ depending on battery use?
  • How will supply and demand develop?

Table of Contents

1. Summary

2. Battery Forms, Contents and Industry Structure

  • Lithium ion batteries in the battery market context. Product, value chain and industry structure. Pressures on battery raw material industries

3. Market Developments & Forecast to 2027

  • Historical and forecast development of Lithium ion batteries in the context of end markets, government regulations and legislation and changing industry requirements

4. Company Positioning in the Supply Chain

  • Company positioning in the supply chain-developments along the supply chain. Geographical and company dimension

5. Non-ferrous Materials Impact

  • Impact of Lithium ion market development for each metal in context of its overall market and most importantly the specific battery grades
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