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市場調查報告書

二次鋰電池用正極(陰極)材料:技術趨勢、市場預測

Cathode Material for Li-ion Secondary battery Technology Trend and Market Forecast (2012~2018)

出版商 SNE Research 商品編碼 195715
出版日期 內容資訊 英文 334 Pages
商品交期: 請詢問到貨日
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二次鋰電池用正極(陰極)材料:技術趨勢、市場預測 Cathode Material for Li-ion Secondary battery Technology Trend and Market Forecast (2012~2018)
出版日期: 2014年05月19日 內容資訊: 英文 334 Pages
簡介

2013年,全球消費了110,769噸的二次鋰電池(LIB)用正極(陰極)材料。佔44.5% (49,257噸)佔有率的中國為最大的消費國,其次為29.7% (32,850噸)的韓國、24.5% (27,125噸)的日本、0.5% (577噸)的美國、0.6% (710噸)的台灣。

本報告提供二次鋰電池(LIB)用正極(陰極)材料的市場相關調查、各種正極材料概要、材料技術的開發趨勢、正極材料的製造流程、主要經營者與其配合措施、全球LIB市場預測、各國家、材料、電池製造商的LIB用正極材料的需求情形及市場成長預測等詳細內容彙整。

第1章 正極(陰極)材料的技術趨勢、市場預測

  • 簡介
    • 開發情形
    • 設計標準
    • 被要求的特性
  • 氧化物陰極材料
    • 層狀化合物
    • 尖晶石化合物
    • 橄欖石化合物
  • 其他正極材料
    • 亞硫系
    • 氟系
    • 鈉系
  • 索引

第2章 正極(陰極)材料的製造流程

  • 正極材料的製造流程
    • 混合
    • 燒成
    • 粉碎
    • 分類
    • 脫離子
  • 前驅體製造流程
    • 反應器
    • 反應器後的流程
  • 正極材料的特性評估
    • 化學組成
    • 表面積
    • 粒子分佈
    • 振實密度
    • 水分
    • 殘餘碳酸鋰
    • 熱分析
    • 粒子強度

第3章 正極(陰極)材料趨勢:各企業

  • 韓國
  • 日本

第4章 全球二次鋰電池市場預測

  • 全球IT市場的小型LIB市場預測
  • 全球EV市場的中型LIB市場預測
  • 全球ESS市場的大型LIB市場預測
  • 全球LIB市場整體的預測

第5章 正極(陰極)材料市場趨勢與預測

  • 正極市場需求
    • 各國需求情形
    • 各材料的需求情形
    • 各材料、各國需求情形
    • 各材料、各國需求比率
    • 電池製造商的需求情形
    • 各類型的需求情形
  • 正極材料的供給情形
    • 各國供給情形
    • 各製造商的市場情形
  • 正極材料的需求的變化:各類型
    • 各年、各國需求的變化趨勢
    • 各年、各國市場變化趨勢
    • 各年、各電池製造商的需求的變化趨勢
  • 正極材料的設備製造能力狀況
  • 正極材料的成本趨勢
    • 價格結構
    • 成本趨勢:各類型
    • 礦物市場趨勢
  • ■圖法

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目錄
Product Code: R130SB2014009

With growing concerns over the depletion of fossil fuel resources and environmental pollution, R&D on electric vehicles is gaining momentum. The global EV sales hit 1.67 million units in 2012 and are expected to grow at a 35% CAGR, reaching 102.5 million units by 2018.

In addition, growing interest in renewable energy drives R&D on energy storage systems to store electric energy generated from renewable energy sources effectively. As of 2012, the ESS market reached 4.6GWh and the end-user segment accounted for more than 90% of the market. As continuous growth is expected across all market segments, the market is projected to reach 8.9GWh by 2015 and 17.9GWh by 2018. The demand for LIBs for ESS applications is expected to grow to 4.6GWh by 2018, an about 17-fold increase from 270MWh of 2012.

Of the key components (cathode, anode, electrolyte, separator) of Li-ion secondary batteries, cathode materials account for about 30-40% of the Li-ion battery cost. Thus, for commercialization of large-sized li-ion batteries where costs matter, low-cost and high performance cathode materials are indispensable.

In this report, SNE Research provides global LIB shipment data including combined shipments of Tier 1 (BYD, ATL, Lishen, BAK, Coslight) & Tier 2 LIB makers (about 60 companies) in China.

In 2013, 110,769 tons of cathode materials for LIB applications were consumed across the world and China remained the world's biggest consumer, accounting for 44.5% (49,257 tons), followed by Korea, 29.7% (32,850 tons); Japan 24.5% (27,125 tons); the U.S., 0.5% (577 tons); Taiwan, 0.6% (710 tons); and others, 0.2% (250 tons).

In 2013, the majority of demand for cathode materials for LIB applications was driven by China, Korea and Japan. In these countries, the cathode material consumption was heavily weighted on LCO and Korea accounted for the largest portion in LCO consumption (59.9%). The 3 countries used NCM most after LCO. While LCO demand increased with the growth of smartphone/table PC segment, NCM showed a decrease. The 3 countries occupy 98.6% of the entire cathode material market and 64-92% of LCO and NCM are used in these countries.

Among cathode materials consumed in 2013, LCO accounted for the largest portion with 50.6% (56,090), followed by NCM with 26.9% (29,795 tons) and LMO with 11.7% (13,010 tons). NCA accounted for 5.4% (6,000 tons) and LFP 5.3%, (5,874 tons). With growing needs for high capacity LIBs in relation to the recent price erosion in cobalt and the growing smartphone/tablet PC market, the demand for LCO is on the rise. As Panasonic's cylindrical LIBs using NCA see growing demand due to the increasing sales of Tesla Model S increase, the demand for NCA is also growing.

[Cathode Material for Li-ion Secondary battery demand trand by
major LIB Cell manufacturer(2013. E)]

[Global LIB Market Forecast (2012~2018)]

SNE Research published a new report titled 'Cathode Material for Li-ion Secondary battery Technology Trend and Market Forecast (2012~2018)'.

This report covers the following topic regarding LIB cathode materials:

  • 1. Cathode material technology development trend
  • 2. Cathode material manufacturing process
  • 3. Trend in cathode material market
  • 4. Global LIB market forecast (2012~2018)
  • 5. Cathode material trend and forecast

Table of Contents

Chapter 1 - Cathode materials technology trends and market forecasts

1. Introduction

  • 1.1. Current status of Cathode Material Development
  • 1.2. Criteria for cathode material design
    • 1.2.1. Ionic bonding and Covalent bonding
    • 1.2.2. Mott-Hubbard type and Charge-transfer type
    • 1.2.3. 3d Concept for charge transfer in 3d transition metal oxides
    • 1.2.4. Concept of Diffusion in solid state and 2-phase coexistence reaction
  • 1.3. Characteristics for Cathode materials

2. Oxide cathode materials

  • 2.1. Layered compounds
    • 2.1.1. LiCoO2
    • 2.1.2. LiNiO2
    • 2.1.3. LiMO2 (M = Fe, Mn)
    • 2.1.4. Ni-Mn layered compound
    • 2.1.5. Ni-Co-Mn 3 element system
    • 2.1.6. Ni-Co-Mn ternary system
  • 2.2. Spinel compounds
    • 2.2.1. LiMn2O4
    • 2.2.2. Transition metal doped with LiMn2O4
  • 2.3. Olivine compounds
    • 2.3.1. LiFePO4
      • 2.3.1.1 Crystal structure of LiFePO4
      • 2.3.1.2. Redox potential characteristic of LiFePO4
      • 2.3.1.3. Charge/discharge curves LiFePO4
      • 2.3.1.4. Stability of LiFePO4
      • 2.3.1.5. Research trends and property improvement method
    • 2.3.2 LiMPO4 (M = Mn, Co, Ni)

3. Other cathode materials

  • 3.1. Sulfurous cathode materials
    • 3.1.1. Types and characteristics of batteries using sulfurous cathode materials
      • 3.3.1.1. Polydisulfide([(SRS)n]) Cathode Sulfur Battery : Lawrence Berkeley Lab
      • 3.3.1.2. Poly(carbon disulfide) [(CSx)n] - Polyaniline Composite Cathode Sulfur Battery : Moltech
      • 3.3.1.3v Elementary sulfur(S8, active sulfur) battery : Polyplus Corp
    • 3.1.2. Elementary Sulfur battery
      • 3.3.2.1. Property of Sulfur Cathode Material
      • 3.3.2.2. Overview of Li-S secondary battery
      • 3.3.2.3. Charge/discharge principle of Lithium/sulfur secondary batter
  • 3.2. Fluorine-containing cathode material
  • 3.3. Sodium-based cathode materials
    • 3.3.1. Introduction
    • 3.3.2. Layered oxides
      • 3.3.2.1. P2-NaxCoO2
      • 3.3.2.2. O3-NaNixCoyMnzO2 solid solution phase
      • 3.3.2.3. P2-type Mn-based layered oxides
    • 3.3.3. Phosphate-based materials
      • 3.3.3.1. Phosphate-based materials
      • 3.3.3.2. Fluorophosphate-based materials

4. Reference

Chapter 2 - Cathode Material Manufacturing Process

1. Cathode Material Manufacturing Process

  • 1.1. Mixing
  • 1.2. Calcination
  • 1.3. Crushing
  • 1.4. Classifying
  • 1.5. De-ion

2. Precursor Manufacturing Process

  • 2.1. Reactor
  • 2.2. Process after Reactor

3. Cathode material Property Evaluation

  • 3.1. Chemical Composition
  • 3.2. surface Area Meter
  • 3.3. Particle Distribution
  • 3.4. Tap Density
  • 3.5. Moisture Content
  • 3.6. Residual Lithium Carbonate
  • 3.7. Thermal Analysis
  • 3.8. Thermal Analysis Particle Intensity

Chapter 3 - Cathode Material Trend by Company

1. Korean Cathode Material Companies

  • 1.1 L&F
  • 1.2 Umicore Korea
  • 1.3 ECOPRO
  • 1.4 Cosmo AM&T

2. Japanese Cathode Material Companies

  • 2.1 Nichia
  • 2.2 Toda Kogyo
  • 2.3 AGC Seimi Chemical
  • 2.4 Nihon Kagaku Sankyo
  • 2.5 Nippon Denko
  • 2.6 JGC C&C
  • 2.7 Mitsui Kinzoku
  • 2.8 Santoku
  • 2.9 Tanaka
  • 2.10 Sumitomo Metal Mining

Chapter 4 - Global LIB Market Forecast (2012-2018)

1. Global small LIB for IT Market Forecast (2012-2018)

2. Global medium LIB for EV Market Forecast (2012-2018)

3. Global large LIB for ESS Market Forecast (2012-2018)

4. Global LIB Market Forecast-Total (2012-2018)

Chapter 5 - Cathode Material- Market Trend and Forecast

1. Cathode Market Demand

  • 1.1. Cathode Material Demand Status by Country
  • 1.2. Cathode Material Demand Status by Material
  • 1.3. Cathode Material Demand Status by Material and Country
  • 1.4. Demand Ratio by Cathode Material Material and Country
  • 1.5. Cathode Material Demand Status by Cell Manufacturer
    • 1.5.1. Samsung SDI: Cathode Material Use Status
    • 1.5.2. LG Chemical: Cathode Material Use Status
    • 1.5.3. Panasonic : Cathode Material Use Status
    • 1.5.4. Sony : Cathode Material Use Status
    • 1.5.5. AESC : Cathode Material Use Status
    • 1.5.6. Hitachi Maxell : Cathode Material Use Status
    • 1.5.7. BYD : Cathode Material Use Status
    • 1.5.8. Lishen : Cathode Material Use Status
    • 1.5.9. BAK : Cathode Material Use Status
    • 1.5.10. ATL : Cathode Material Use Status
    • 1.5.11. Coslight : Cathode Material Use Status
  • 1.6. Cathode Material Demand Status by Type
    • 1.6.1. Cathode Material Demand Status by Type and Country
    • 1.6.2. Demand Ratio by Cathode Material Type and Country

2. Cathode Material Supply Status

  • 2.1. Cathode Material Supply Status by Country
    • 2.1.1. Demand Ratio by Cathode Material Type and Country
  • 2.2. Cathode Material Market Status by Manufacturer
    • 2.2.1. LCO Market Status
    • 2.2.2. NCM Market Status
    • 2.2.3. LMO Market Status
    • 2.2.4. NCA Market Status
    • 2.2.5. FPO Market Status

3. Trend of Change in Cathode Material Demand by Type

  • 3.1. Trend of Change in Cathode Material Demand by Year and Country
  • 3.2. Trend of Change in Cathode Material Market by Year and Country
    • 3.2.1. Trend of Change in Korean Cathode Material Market
    • 3.2.2. Trend of Change in Japanese Cathode Material Market
    • 3.2.3. Trend of Change in China Cathode Material Market
  • 3.3. Trend of Change in Cathode Material Demand by Year and Cell Manufacturer
    • 3.3.1. Samsung SDI - Trend of Change in Cathode Material Demand
    • 3.2.2. LG Chemical- Trend of Change in Cathode Material Demand
    • 3.2.3. Panasonic- Trend of Change in Cathode Material Demand
    • 3.2.4. Sony- Trend of Change in Cathode Material Demand
    • 3.2.5. AESC- Trend of Change in Cathode Material Demand
    • 3.2.6. Hitachi Maxell- Trend of Change in Cathode Material Demand
    • 3.2.7. BYD- Trend of Change in Cathode Material Demand
    • 3.2.8. Lishen- Trend of Change in Cathode Material Demand
    • 3.2.9. BAK- Trend of Change in Cathode Material Demand
    • 3.2.10. ATL- Trend of Change in Cathode Material Demand
    • 3.2.11. Coslight- Trend of Change in Cathode Material Demand

4. Cathode Material Production Capacity Status

5. Cathode Material Cost Trend

  • 5.1. Cathode Material Price Structure
  • 5.2. Cathode Material Cost Trend by Type
  • 5.3. Mineral Market Trend
    • 5.3.1. Nickel
    • 5.3.2. Cobalt
    • 5.3.3. Manganese
    • 5.3.4. Lithium

Figure List

Table List

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