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Battery

<2016> Lithium Ion Battery Anode Technology Trend and Market Forecast
  • Publishing Date : 2016-10-25
  • Published cycle : Special
  • Page :  334p

Anode material receiving increasing attention with expansion of LIB applications.

 

Graphite has held its dominant position, since Sony succeeded in commercialization of LIB for the first time in 1991. Contrary to other materials that have undergone significant changes such as anode materials and separators, it has remained the same for last 20 years.

 

Recently as the required battery capacity in smartphones increase to over 3,000mA and tablet and ultra pc use large storage lithium-polymer battery with over 4,000mAh, the capacity level of Anode material is also growing substantially as well.

 

Also, as medium-large sized battery used in electric vehicle and ESS need high-capacity Anode material, silicon (Si) and tin (Sn) from carbon-based and graphite-based Anode material that were originally used are recently  receiving attention, and research in these field is also very active.

 

Especially regarding silicon (Si)-based Anode, High Power Anode related technologies are being announced after one another, rising the expectation of commercialization.

 

This report provides the technology trends of various types of anode materials, especially the recent trend focused on alloy and compound-based materials.

 

In addition, this report examines the current status of anode material production by manufacturer in Japan, China, Korea and other countries; 7 Japanese companies, 6 Chinese companies and 5 Korean companies.

 

Lastly, the consumer-side trend and the provider-side trend are provided based on pipelines by country, manufacturer, and type.  In addition, the demand for the anode material market in the IT and EV market until 2020 is forecasted.

 

 

 

 

 

 

 

 

 

- Contents -
1. Introduction

1.1. Lithium metal secondary battery Li-ion battery

1.2 Lithium Metal Anode

1.3 Requirement for anode material as alternative for lithium metal

1.4 Current status of development of carbon based anode

1.5 Current status of development of anode material

 

2. Carbon-based anode material

2.1 Introduction of Carbon-based material

2.1.1 Carbon atom combination

2.1.2 Manufacture of Carbon

2.1.2.1 Gas-phase carbonization

2.1.2.2 Liquid phase carbonization

2.1.2.3 Solid state carbonization

2.2 Soft carbon based anode material

2.2.1 Graphite

2.2.1.1 Structural property

2.2.1.2 Electrochemical property

2.2.1.3 Electrode reaction mechanism

2.2.1.4 Manufacturing graphitic carbon material and commercial graphite

2.2.1.4.1 Synthetic graphite (MCMB/MCF/MAG)

2.2.1.4.2 Natural graphite

2.2.1.5 Coated carbon graphite

2.2.2 Low temperature calcined carbon

2.2.2.1 Structural property

2.2.2.2 Electro-chemical property

2.2.2.3 Electrode reaction mechanism

2.2.2.4 Manufacturing method

2.3 Hard carbon based anode material

2.3.1 Hard carbon based materials (non-graphitizable carbons)

2.3.1.1 Structural property

2.3.1.2 Electro-chemical property

2.3.1.3 Electrode reaction mechanism

2.3.1.4 Manufacturing method

2.4 LIB Characteristic by used Carbon based anode

 

3. Alloy anode material

3.1 Introduction of alloy anode

3.2 Characteristic and manufacturing technology of alloy anode material

3.2.1 Problem and solution

3.2.2 Metal composite anode material

3.2.3 Metal-Carbon composite anode material

3.2.3.1 Carbon coating for high active metal and alloy

3.2.3.2 High capacity active metal and alloy/graphitic carbon composite

3.2.3.3 Carbon coating for composite of high capacity active metal and alloy/graphitic carbon

3.2.3.4 Si chemical deposition for graphite and carbon nano fiber

3.2.3.5 Yolk-shell Composite structure

3.2.4 Other Si anode material

3.2.4.1 Three-dimensional porous Si

3.2.4.2 Si nano tube

3.2.5 Metal/alloy thin-film anode

 

4. High-powered Anode materials development trends

4.1 Intercalation materials

4.2 Alloying materials

4.3 Conversion materials

4.4 Nano-structured Micro-sized Particles

4.5 Outlook

 

5. Compound anode material

5.1 Oxide anode material

5.1.1 Li4Ti5O12 (or  Li4/3Ti5/3O4)

5.1.2 TiO2

5.1.2.1 Rutile TiO2

5.1.2.2 Anatase TiO2

5.1.2.3 TiO2-B

5.1.2.4 Brookite

5.2 Nitride anode material

 

6. Influence of anode on stability of Li-ion battery

 

7. Anode material for lithium secondary battery: Company trends

7.1 Anode manufacturer in Japan

7.1.1 Hitachi Chemical

7.1.2 Nippon Carbon

7.1.3 JFE Chemical

7.1.4 Mitsubishi Chemical

7.1.5 Hitachi Powdered Metals

7.1.6 Kureha

7.1.7 Showa Denko

7.1.8 Other anode manufacturers in Japan

7.2 Anode manufacturer in China

7.2.1 BTR Eneregy Materials Co., Ltd.

7.2.2 Shanghai Shanshan Tech Co., Ltd.

7.2.3 Morgan AM&T Hairong Co., Ltd  (Changsha Hairong New Materials Co., Ltd)

7.2.4 Easpring

7.2.5 Changsha Xingcheng

7.2.6 Zichen

7.3 Anode manufacturers in Korea

7.3.1 Posco Kemtech

7.3.2 GS Energy

7.3.3 Aakyung Petrochemical

7.3.4 Iljin Electric

7.3.5 Daejoo Electronic Materials

 

8. Market forecast- Anode material for Lithium secondary battery (~2020)

8.1 Current status of global anode material consumption

8.1.1 Change in global anode material consumption

8.1.2 Change in anode material consumption by country

8.1.3 Change in anode material consumption by type

8.1.4 Change in anode material consumption by country and type

8.2 Current status of anode material consumption by Li-ion secondary manufacturer

8.2.1 Samsung SDI- current status of anode material consumption

8.2.2 LG Chemical-current status of anode material consumption

8.2.3 SK Innovation-current status of anode material consumption

8.2.4 Panasonic-current status of anode material consumption

8.2.5 Sony-current status of anode material consumption

8.2.6 AESC-current status of anode material consumption

8.2.7 Hitachi-current status of anode material consumption

8.2.8 ATL-current status of anode material consumption

8.2.9 BYD-current status of anode material consumption

8.2.10 Lishen-current status of anode material consumption

8.2.11 Coslight-current status of anode material consumption

8.3 Current status of anode material supply by company

8.3.1 Hitachi Chemical

8.3.2 Nippon Carbon

8.3.3 JFE Chemical

8.3.4 Mitsubishi Chemical

8.3.5 BTR

8.3.6 ShanShan

8.3.7 Zichen

8.3.8 Posco Chemtech

8.3.9 GS Energy

8.4 LIB Anode Capacity of production

8.5 LIB Anode Market Forecast (~2020)

8.6 LIB Anode Price Forecast (~2020)

 

References

 

 

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