Global and China Silicon-based Anode Material Industry Report, 2017-2020 - ResearchInChina
Global and China Silicon-based Anode Material Industry Report, 2017-2020
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At present, commercial lithium-ion battery anode materials are mostly based on graphite. High-end graphite-based anode materials which have been successfully developed and put into use, have capacity of 365mAh/g, close to the theoretical capacity of graphite (372mAh/g), with compaction density ranging at 1.7~1.75g/cm3. There is seldom an improvement in energy density of anode materials in terms of capacity per gram and compaction density of graphite.

Moreover, in lithium-ion battery market, especially power battery market, requirements on energy density of batteries are increasingly high. According to Chinese government’s plan for power battery (as of 2020), specific energy of new lithium-ion power battery cell shall exceed 300Wh/kg and that of the system shall be up to 260Wh/kg. In current stage, mainstream graphite-based anode materials are hardly satisfying the needs of improving specific capacity of batteries. New high-capacity anode materials such as Si-C composite are the future development trend.

负极材料 EN_副本.png

Presently, a solution of Si-based materials doped with graphite is common for pure Si-based materials which have great expansion and high costs in spite of energy density of up to 4200mAh/g, and more doping renders higher concentration of silicon in the materials. Silicon carbon anode material (SiC) and silicon oxide anode material (SiO) are the mainstream technical solutions at present.

Currently, around 10% of Si-based material can be added into SiC anode material. In line with the China’s plan for specific energy of power battery cell of 300Wh/Kg, that of anode materials shall attain 600-800ah/g. Hence, Si-based material will see a rising share to 25%-35% and above in the anode material in the coming several years.

The output of anode materials reached 122,500 tons in China in 2016, an upsurge of 68.3% from a year ago. As it is still at the infancy of industrialization and features low penetration rate, the SiC anode material demand stands at 300 tons or more. If the average addition of Si-based materials is up to 30% or so in 2020, the demand for Si-based anode materials will soar to roughly 40,000 tons and the overall market size will reach about RMB8 billion.

By far, Japanese companies are at the forefront of the SiC anode composites, and some companies have supplied of small-batch products. Among Chinese enterprises, Shenzhen BTR New Energy Materials Co., Ltd has been in the leading position in the R&D and production of SiC anode domestically by dint of its technical superiority in anode materials. The company’s SiC anode materials, which passed Samsung’s certification in 2013, has current capacity of 300 t/a.

Shanshan Corporation started R&D of SiC anode materials in 2009 and has already realized ton-level sales per month. Obtaining many patents in regions like Japan, South Korea and China, Shanshan will build a 4,000 t/a SiC anode material production line at the end of 2017, according to its planning.

Global and China Silicon-based Anode Material Industry Report, 2017-2020 by ResearchInChina highlights the following:
20120114.gifDevelopment background and technology roadmap of silicon-based anode materials;
20120114.gifGlobal lithium battery anode material market (scale, competitive landscape, etc.);
20120114.gifChinese lithium battery anode material industry (policies, market size, competitive pattern, price trend, etc.);
20120114.gifProgress in industrialization of silicon-based anode materials, domestic and foreign companies’ layout, the market demand for silicon-based anode materials in China;
20120114.gifWorld’s six silicon-based anode companies (operation, anode material business, R&D and industrialization progress of silicon-based anode materials);
20120114.gifTen Chinese silicon-based anode companies (operation, anode material business, R&D and industrialization progress of silicon-based anode materials).

1 Overview of Silicon-based Anode Material for Lithium Battery
1.1 Background
1.2 Classification and Preparation Methods
1.3 Technology Roadmap

2 Global Lithium Battery Anode Material Market
2.1 Market Size
2.2 Competitive Pattern

3 Chinese Lithium Battery Anode Material Market
3.1 Industrial Policy 
3.2 Market Size
3.3 Competitive Pattern
3.4 Price Trend

4 Application and Market Prospects of Silicon-based Anode Material
4.1 Application
4.2 Demand

5 Downstream Lithium Battery Market
5.1 Market Size
5.1.1 Global
5.1.2 China
5.2 Market Structure
5.2.1 Global
5.2.2 China
5.3 Competitive Pattern
5.3.1 Global
5.3.2 China
5.4 Demand
5.4.1 Consumer Electronics (3C)
5.4.2 Electric Vehicle
5.4.3 Industrial Energy Storage

6 Key Foreign Silicon-based Anode Material Companies
6.1 Hitachi Chemical
6.1.1 Profile
6.1.2 Development Course 
6.1.3 Production Base 
6.1.4 Lithium Battery Anode Material Business
6.1.5 Layout in China
6.1.6 Operating Data
6.2 3M
6.2.1 Profile
6.2.2 Development Course
6.2.3 Silicon-based Anode Material Business
6.2.4 Layout in China
6.2.5 Operating Data
6.3 Shin-Etsu Chemical
6.3.1 Profile
6.3.2 Development Course
6.3.3 Production Base 
6.3.4 Silicon-based Anode Material Business
6.3.5 Operating Data
6.4 XG Sciences
6.4.1 Profile
6.4.2 Production and R&D
6.4.3 Silicon-based Anode Material Business
6.4.4 Operating Data
6.5 Nexeon
6.5.1 Profile
6.5.2 Silicon-based Anode Material Business
6.6 Amprius
6.6.1 Profile
6.6.2 Silicon-based Anode Material Business

7 Key Chinese Silicon-based Anode Material Companies
7.1 Shenzhen BTR New Energy Materials Co., Ltd.
7.1.1 Profile
7.1.2 Industrial Layout
7.1.3 Products, Technologies and Solutions
7.1.4 Silicon-based Anode Material Business
7.1.5 Customer Support
7.1.6 Production and Sales
7.1.7 Core Competence
7.1.8 Operating Data
7.2 Shanshan Technology Co., Ltd.
7.2.1 Profile
7.2.2 Affiliates
7.2.3 Silicon-based Anode Material Business
7.2.4 Products, Technologies and Solutions
7.2.5 Customer Support
7.2.6 Production and Sales
7.2.7 Core Competence
7.2.8 Operating Data
7.3 Hunan Shinzoom Technology Co., Ltd.
7.3.1 Profile
7.3.2 Products, Technologies and Solutions
7.3.3 Silicon-based Anode Material Business
7.3.4 Core Competence
7.3.5 Customer Support
7.3.6 Operating Data
7.4 Huzhou Chuangya Power Battery Materials Co., Ltd.
7.4.1 Profile
7.4.2 Products, Technologies and Solutions
7.4.3 Silicon-based Anode Material Business
7.4.4 Customer Support
7.4.5 Production and Sales
7.4.6 Core Competence
7.4.7 Operating Data
7.5 Jiangxi Zhengtuo New Energy Technology Co., Ltd.
7.5.1 Profile
7.5.2 Products, Technologies and Solutions
7.5.3 Silicon-based Anode Material Business
7.5.4 Customer Support
7.5.5 Supply System
7.5.6 Production and Sales
7.5.7 Operating Data
7.6 Jiangxi Zichen Technology Co., Ltd.
7.6.1 Profile
7.6.2 Customer Support
7.6.3 Production and Sales
7.6.4 Silicon-based Anode Material Business
7.7 Hefei Guoxuan High-Tech Power Energy Co., Ltd.
7.7.1 Profile
7.7.2 Battery Technologies
7.7.3 Customer
7.7.4 Production and Sales
7.7.5 Silicon-based Anode Material Business
7.8 Other Companies
7.8.1 Shenzhen Sinuo Industrial Development Co., Ltd.
7.8.2 Hunan Morgan Hairong New Materials Co., Ltd.
7.8.3 Dalian Hongguang Lithium Co., Ltd.
Performance Comparison of Lithium Battery Anode Materials
Specific Capacitance Comparison of Commercial Anode Materials
Volume of Lithium-ion after Forming Li-Si Alloy by Embedding
Classification of Silicon-based Anode Materials
Si/C Composites Capable of Achieving Complementary Advantages between Silicon and Carbon
Classification of Si/C Composites 
Schematic Diagram of Si/C Composites Preparation by Chemical Vapor Deposition (CVD) Method
Four Conventional Preparation Methods of Si/C Composites
Development Trend of Anode Material Technology Roadmap
R&D and Application Route of Silicon-based Anode Materials
Global Shipments of Lithium Battery Anode Materials, 2010-2020E
Global Anode Material Product Structure, 2015-2020E
Competitive Pattern of Global Anode Material Companies, 2016
Capacity Proposed/under Construction of Global Anode Material Producers, 2016
Major Suppliers and Buyers of Anode Materials Worldwide (by Product)
Policies on Lithium Battery Industry in China
Requirements on Performance Indicators of Lithium Battery Anode Materials in China
Output of Lithium Battery Anode Materials in China, 2010-2020E
Output Value of Lithium Battery Anode Materials and YoY Growth in China, 2010-2020E
Sales Volume of Anode Materials in China as a Percentage of Global Total, 2010-2020E
Rankings of Major Anode Material Producers in China, 2016H1
Price Trend of Anode Materials in China, 2010-2020E
Progress in Application of Si/C Anode Materials
Si/C Anode Material Business Layout of Major Lithium Battery Materials Companies in China
Silicon-based Anode Material Demand and Market Size in China, 2016-2020E
Structure of Lithium Battery
Market Share of Power Batteries by Material, 2016 
Global Lithium Battery Industry Scale, 2010-2020E
Global Lithium Battery Sales Structure by Country, 2011-2016
China’s Lithium Battery Sales Structure by Province, 2013-2016
Global Lithium Battery Manufacturer Echelons
Competitive Pattern of Global Lithium Power Battery Manufacturers, 2016
Output of Major Power Battery Companies Worldwide, 2015-2016H1
Competitive Pattern of Lithium Battery Market in China, 2016
Major Lithium Battery Manufacturers in China
Lithium Power Battery Supply System in China 
Market Share of Lithium Power Batteries by Application in China, 2016
Shipments of Major Battery Manufacturers, 2016 (MWh)
Applications of Lithium-ion Batteries 
Global Lithium Battery Demand Structure, 2012-2020E
Global Demand from Consumer Electronics for Lithium Battery and YoY Growth, 2013-2020E 
Global Sales Volume of Mobile Phones and Demand for Lithium Battery, 2012-2020E
Global Sales Volume of Tablet Computers and Demand for Lithium Battery, 2012-2020E
Competitive Pattern of Global Tablet Computer Market, 2013-2016
Global Sales Volume of Notebook Computers and Demand for Lithium Battery, 2012-2020E
Capacity and Endurance of Batteries of Major Electric Vehicles Worldwide
Single-vehicle Battery Capacity of Electric Passenger Cars Worldwide, 2011-2020E
Production and Sales of New Energy Vehicle (by Type) in China, 2011-2016
Production and Sales of New Energy Vehicle in China, 2016-2020E
Sales Volume of Electric Passenger Cars (EV&PHEV) in China, 2011-2020E
Lithium Power Battery Demand (by Type) in China, 2011-2020E 
Energy Storage Lithium Battery Demand in China, 2014-2020E
Energy Storage Lithium Battery Demand Structure (by Sector) in China, 2020E
Major Manufacturers of Energy Storage Battery in China
Development Course of Hitachi Chemical
Presence of Hitachi Chemical’s Major Subsidiaries
Main Business Divisions and Their Business of Hitachi Chemical
Structure of Silicon-based Anode Material of Hitachi Chemical
Hitachi Chemical’s Layout in China
Financial Factsheet of Hitachi Chemical, FY2010-FY2016
Development Course of 3M
List of Lithium Battery Material Solutions of 3M
Structure of Silicon-based Anode Material of 3M
Cycling Stability of Silicon-based Anode Material of 3M -- dQ/dV
Rate Performance of Silicon-based Anode Material of 3M
Cyclic Performance of 3M’s Silicon-based Anode Material Coupling 18650 Battery
3M’s Layout in China
Revenue of 3M, 2012-2016
Profitability of 3M, 2012-2017Q1
Revenue and Operating Income of 3M by Region, 2014-2015
Revenue and Operating Income of 3M by Business, 2014-2015
Development Course of Shin-Etsu Chemical
Distribution of Shin-Etsu Chemical’s Headquarter, Production Bases and Branches, 2016
Global Presence of Shin-Etsu Chemical’s Operations, 2016
Number of Silicon-based Anode Material Patents of Shin-Etsu Chemical
Performance of SiO-based Anode Material of Shin-Etsu Chemical
Revenue of Shin-Etsu Chemical by Business, FY2016-FY2017
Revenue and Profit Structure of Shin-Etsu Chemical by Business, FY2017
Revenue Structure of Shin-Etsu Chemical by Region, FY2017
Revenue and Net Income of Shin-Etsu Chemical, FY2012-FY2017
Product Lines of XG Sciences
Distribution of XG Sciences’ Customers Worldwide
Cyclic Performance of SiG-based Anode Material of XG Sciences
XG Sciences’ AN-S-100 Anode Material---Performance Indicators
XG Sciences’ AN-S-100 Anode Material---Electron Micrograph
Revenue and Profits of XG Sciences, 2014-2015
Silicon-based Anode Material Technology Roadmap of Amprius
Structure of Silicon Nanowire Anode Material of Amprius
R&D/Production System of Amprius
Development Course of Shenzhen BTR New Energy Materials
Industrial Layout of Shenzhen BTR New Energy Materials
Main Subsidiaries and Their Capacity of Shenzhen BTR New Energy Materials, 2016
Subsidiaries of Shenzhen BTR New Energy Materials 
Main Anode Material Products of Shenzhen BTR New Energy Materials
Si-based Composites of Shenzhen BTR New Energy Materials -- Electron Micrograph
Si-based Composites of Shenzhen BTR New Energy Materials -- Physical and Chemical Indicators
SiO-based Anode Material of Shenzhen BTR New Energy Materials -- Electron Micrograph
SiO-based Anode Material of Shenzhen BTR New Energy Materials -- Physical and Chemical Indicators
Revenue and Net Income of Shenzhen BTR New Energy Materials, 2012-2016
Development Course of Shanshan Technology and Ningbo Shanshan in Anode Material
Affiliates of Shanshan Technology
Physical and Chemical Performance of Low-capacity Nano-silicon /carbon Products of Shanshan Technology
Physical and Chemical Performance of Si/C-based Composites of Shanshan Technology
Anode Material Products of Shanshan Technology
Revenue and Net Income of Shanshan Technology, 2012-2016
Development Course of Hunan Shinzoom Technology
Anode Material Products of Hunan Shinzoom Technology 
Technical Indicators of Artificial Graphite of Hunan Shinzoom Technology
Technical Indicators of Natural Graphite of Hunan Shinzoom Technology
Technical Indicators of Artificial Graphite Composites of Hunan Shinzoom Technology
Si/C Anode Material of Hunan Shinzoom Technology -- Main Technical Indicators
Si/C Anode Material of Hunan Shinzoom Technology -- Electrochemical Performance
Revenue and Net Income of Hunan Shinzoom Technology, 2012-2016
Revenue Structure of Hunan Shinzoom Technology by Product, 2012-2015
Anode Material Products of Huzhou Chuangya Power Battery Materials
Revenue and Net Income of Huzhou Chuangya Power Battery Materials, 2012-2015
Development Course of Jiangxi Zhengtuo New Energy Technology
Anode Material Products of Jiangxi Zhengtuo New Energy Technology
Name List and Revenue Contribution of Top5 Customers of Jiangxi Zhengtuo New Energy Technology, 2015
Revenue and Net Income of Jiangxi Zhengtuo New Energy Technology, 2012-2016
Performance Indicators of Si/C Composites of Jiangxi Zichen Technology -- 380mAh/g
Performance Indicators of Si/C Composites of Jiangxi Zichen Technology -- 400mAh/g
Performance Indicators of Si/C Composites of Jiangxi Zichen Technology -- 420mAh/g
Performance Indicators of Si/C Composites of Jiangxi Zichen Technology -- 450mAh/g
Performance Indicators of Si/C Composites of Jiangxi Zichen Technology -- 600mAh/g
Performance Indicators of Si/C Composites of Jiangxi Zichen Technology -- 950mAh/g
Operating Results of Hefei Guoxuan High-Tech Power Energy, 2009-2016
Specifications of LiFePO4 Power Battery of Hefei Guoxuan High-Tech Power Energy
Parameters of Models Carrying Power Batteries of Hefei Guoxuan High-Tech Power Energy
Price of Power Battery Pack of Hefei Guoxuan High-Tech Power Energy, 2009-2015
Power Battery Shipments of Hefei Guoxuan High-Tech Power Energy, 2009-2016
Capacity Layout of Hefei Guoxuan High-Tech Power Energy, 2015-2017
Main Technical Parameters of Silicon Oxide of Hefei Guoxuan High-Tech Power Energy
Porous Si/C Composite Anode Material of Shenzhen Sinuo Industrial Development -- Low-temperature Discharge Curve at -20℃
Porous Si/C Composite Anode Material of Shenzhen Sinuo Industrial Development -- 1C Cycle Curve
Electron Micrograph of Soft Carbon Material of Hunan Morgan Hairong New Materials

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