LFP Cathode Material Market Report – Research, Industry Analysis Reports and Market Demands

Global LFP Cathode Material Market Growth 2019-2024

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Table of Content

2019-2024 Global LFP Cathode Material Consumption Market Report

1 Scope of the Report

2 Executive Summary

2.1 World Market Overview
- 2.1.1 Global LFP Cathode Material Consumption 2014-2024
- 2.1.2 LFP Cathode Material Consumption CAGR by Region
2.2 LFP Cathode Material Segment by Type
- 2.2.1 Nano-LFP Cathode Material
- 2.2.2 Common-LFP Cathode Material
2.3 LFP Cathode Material Consumption by Type
- 2.3.1 Global LFP Cathode Material Consumption Market Share by Type (2014-2019)
- 2.3.2 Global LFP Cathode Material Revenue and Market Share by Type (2014-2019)
- 2.3.3 Global LFP Cathode Material Sale Price by Type (2014-2019)
2.4 LFP Cathode Material Segment by Application
- 2.4.1 Electric Vehicle
- 2.4.2 Base Station
2.5 LFP Cathode Material Consumption by Application
- 2.5.1 Global LFP Cathode Material Consumption Market Share by Application (2014-2019)
- 2.5.2 Global LFP Cathode Material Value and Market Share by Application (2014-2019)
- 2.5.3 Global LFP Cathode Material Sale Price by Application (2014-2019)

3 Global LFP Cathode Material by Players

3.1 Global LFP Cathode Material Sales Market Share by Players
- 3.1.1 Global LFP Cathode Material Sales by Players (2017-2019)
- 3.1.2 Global LFP Cathode Material Sales Market Share by Players (2017-2019)
3.2 Global LFP Cathode Material Revenue Market Share by Players
- 3.2.1 Global LFP Cathode Material Revenue by Players (2017-2019)
- 3.2.2 Global LFP Cathode Material Revenue Market Share by Players (2017-2019)
3.3 Global LFP Cathode Material Sale Price by Players
3.4 Global LFP Cathode Material Manufacturing Base Distribution, Sales Area, Product Types by Players
- 3.4.1 Global LFP Cathode Material Manufacturing Base Distribution and Sales Area by Players
- 3.4.2 Players LFP Cathode Material Products Offered
3.5 Market Concentration Rate Analysis
- 3.5.1 Competition Landscape Analysis
- 3.5.2 Concentration Ratio (CR3, CR5 and CR10) (2017-2019)
3.6 New Products and Potential Entrants
3.7 Mergers & Acquisitions, Expansion

4 LFP Cathode Material by Regions

4.1 LFP Cathode Material by Regions
- 4.1.1 Global LFP Cathode Material Consumption by Regions
- 4.1.2 Global LFP Cathode Material Value by Regions
4.2 Americas LFP Cathode Material Consumption Growth
4.3 APAC LFP Cathode Material Consumption Growth
4.4 Europe LFP Cathode Material Consumption Growth
4.5 Middle East & Africa LFP Cathode Material Consumption Growth

5 Americas

5.1 Americas LFP Cathode Material Consumption by Countries
- 5.1.1 Americas LFP Cathode Material Consumption by Countries (2014-2019)
- 5.1.2 Americas LFP Cathode Material Value by Countries (2014-2019)
5.2 Americas LFP Cathode Material Consumption by Type
5.3 Americas LFP Cathode Material Consumption by Application
5.4 United States
5.5 Canada
5.6 Mexico
5.7 Key Economic Indicators of Few Americas Countries

6 APAC

6.1 APAC LFP Cathode Material Consumption by Countries
- 6.1.1 APAC LFP Cathode Material Consumption by Countries (2014-2019)
- 6.1.2 APAC LFP Cathode Material Value by Countries (2014-2019)
6.2 APAC LFP Cathode Material Consumption by Type
6.3 APAC LFP Cathode Material Consumption by Application
6.4 China
6.5 Japan
6.6 Korea
6.7 Southeast Asia
6.8 India
6.9 Australia
6.10 Key Economic Indicators of Few APAC Countries

7 Europe

7.1 Europe LFP Cathode Material by Countries
- 7.1.1 Europe LFP Cathode Material Consumption by Countries (2014-2019)
- 7.1.2 Europe LFP Cathode Material Value by Countries (2014-2019)
7.2 Europe LFP Cathode Material Consumption by Type
7.3 Europe LFP Cathode Material Consumption by Application
7.4 Germany
7.5 France
7.6 UK
7.7 Italy
7.8 Russia
7.9 Spain
7.10 Key Economic Indicators of Few Europe Countries

8 Middle East & Africa

8.1 Middle East & Africa LFP Cathode Material by Countries
- 8.1.1 Middle East & Africa LFP Cathode Material Consumption by Countries (2014-2019)
- 8.1.2 Middle East & Africa LFP Cathode Material Value by Countries (2014-2019)
8.2 Middle East & Africa LFP Cathode Material Consumption by Type
8.3 Middle East & Africa LFP Cathode Material Consumption by Application
8.4 Egypt
8.5 South Africa
8.6 Israel
8.7 Turkey
8.8 GCC Countries

9 Market Drivers, Challenges and Trends

9.1 Market Drivers and Impact
- 9.1.1 Growing Demand from Key Regions
- 9.1.2 Growing Demand from Key Applications and Potential Industries
9.2 Market Challenges and Impact
9.3 Market Trends

10 Marketing, Distributors and Customer

10.1 Sales Channel
- 10.1.1 Direct Channels
- 10.1.2 Indirect Channels
10.2 LFP Cathode Material Distributors
10.3 LFP Cathode Material Customer

11 Global LFP Cathode Material Market Forecast

11.1 Global LFP Cathode Material Consumption Forecast (2019-2024)
11.2 Global LFP Cathode Material Forecast by Regions
- 11.2.1 Global LFP Cathode Material Forecast by Regions (2019-2024)
- 11.2.2 Global LFP Cathode Material Value Forecast by Regions (2019-2024)
- 11.2.3 Americas Consumption Forecast
- 11.2.4 APAC Consumption Forecast
- 11.2.5 Europe Consumption Forecast
- 11.2.6 Middle East & Africa Consumption Forecast
11.3 Americas Forecast by Countries
- 11.3.1 United States Market Forecast
- 11.3.2 Canada Market Forecast
- 11.3.3 Mexico Market Forecast
- 11.3.4 Brazil Market Forecast
11.4 APAC Forecast by Countries
- 11.4.1 China Market Forecast
- 11.4.2 Japan Market Forecast
- 11.4.3 Korea Market Forecast
- 11.4.4 Southeast Asia Market Forecast
- 11.4.5 India Market Forecast
- 11.4.6 Australia Market Forecast
11.5 Europe Forecast by Countries
- 11.5.1 Germany Market Forecast
- 11.5.2 France Market Forecast
- 11.5.3 UK Market Forecast
- 11.5.4 Italy Market Forecast
- 11.5.5 Russia Market Forecast
- 11.5.6 Spain Market Forecast
11.6 Middle East & Africa Forecast by Countries
- 11.6.1 Egypt Market Forecast
- 11.6.2 South Africa Market Forecast
- 11.6.3 Israel Market Forecast
- 11.6.4 Turkey Market Forecast
- 11.6.5 GCC Countries Market Forecast
11.7 Global LFP Cathode Material Forecast by Type
11.8 Global LFP Cathode Material Forecast by Application

12 Key Players Analysis

13 Research Findings and Conclusion

Description

Li-phosphate offers good electrochemical performance with low resistance. This is made possible with nano-scale phosphate cathode material. The key benefits are high current rating and long cycle life, besides good thermal stability, enhanced safety and tolerance if abused.
Li-phosphate is more tolerant to full charge conditions and is less stressed than other lithium-ion systems if kept at high voltage for a prolonged time. As a trade-off, its lower nominal voltage of 3.2V/cell reduces the specific energy below that of cobalt-blended lithium-ion. With most batteries, cold temperature reduces performance and elevated storage temperature shortens the service life, and Li-phosphate is no exception. Li-phosphate has a higher self-discharge than other Li-ion batteries, which can cause balancing issues with aging. This can be mitigated by buying high quality cells and/or using sophisticated control electronics, both of which increase the cost of the pack. Cleanliness in manufacturing is of importance for longevity.
The development of power battery and energy storage battery markets have affected the demand positively. But due to the original limitation of LFP’s energy density, the usage of LFP will probably see the ceiling around 2018-2019 and transfer to a downturn trend. The global LFP capacity is concentrated in Mainland China and Taiwan.
The energy density roadmap of LFP in 2017-mechanical weight loss+ lightweight + LMFP material.
Mechanical weight loss: Lighting technology of auxiliary materials ( shell, foil), combined with optimized design of cell space, can improve 5% energy density while insuring the mechanical strength.
The TOP10 LFP material manufactures in China accounts for nearly 85% of the market share, yet it doesn’t stop other enterprises stepping into the market. According to incomplete statistics, along with the operation of LFP capacities under construction, the total LFP capacity will reach 250 kilotons in 2018, which will be highly above the demand of around 90 kilotons. LFP batteries will be mainly used in electric buses and gradually turn to energy storage use in the future.
The price of LFP cathode material appears a downturn trend, on the other hand, few of these manufacturers can meet the power battery clients’ demand for higher performance lithium iron materials. Currently the energy density of domestic LFP battery system is about 85~100Wh/kg, which is relatively low. Capacity per gram and compact density of most domestic LFP materials are below 135wh/kg and 2.3g/cm3 respectively.

According to this study, over the next five years the LFP Cathode Material market will register a xx% CAGR in terms of revenue, the global market size will reach US$ xx million by 2024, from US$ xx million in 2019. In particular, this report presents the global market share (sales and revenue) of key companies in LFP Cathode Material business, shared in Chapter 3.

This report presents a comprehensive overview, market shares, and growth opportunities of LFP Cathode Material market by product type, application, key manufacturers and key regions and countries.

This study considers the LFP Cathode Material value and volume generated from the sales of the following segments:

Segmentation by product type: breakdown data from 2014 to 2019, in Section 2.3; and forecast to 2024 in section 11.7.
Nano-LFP Cathode Material
Common-LFP Cathode Material
Segmentation by application: breakdown data from 2014 to 2019, in Section 2.4; and forecast to 2024 in section 11.8.
Electric Vehicle
Base Station

This report also splits the market by region: Breakdown data in Chapter 4, 5, 6, 7 and 8.
Americas
United States
Canada
Mexico
Brazil
APAC
China
Japan
Korea
Southeast Asia
India
Australia
Europe
Germany
France
UK
Italy
Russia
Spain
Middle East & Africa
Egypt
South Africa
Israel
Turkey
GCC Countries

The report also presents the market competition landscape and a corresponding detailed analysis of the major vendor/manufacturers in the market. The key manufacturers covered in this report: Breakdown data in in Chapter 3.
Guizhou Anda Energy Technology
BTR New Energy Materials
Hunan Shenghua Technology
Pulead Technology Industry
Tianjin STL Energy Technology
Shenzhen Dynanonic
Yantai Zhuoneng Battery Materials
Chongqing Terui Battery Materials

In addition, this report discusses the key drivers influencing market growth, opportunities, the challenges and the risks faced by key manufacturers and the market as a whole. It also analyzes key emerging trends and their impact on present and future development.

Research objectives
To study and analyze the global LFP Cathode Material consumption (value & volume) by key regions/countries, product type and application, history data from 2014 to 2018, and forecast to 2024.
To understand the structure of LFP Cathode Material market by identifying its various subsegments.
Focuses on the key global LFP Cathode Material manufacturers, to define, describe and analyze the sales volume, value, market share, market competition landscape, SWOT analysis and development plans in next few years.
To analyze the LFP Cathode Material with respect to individual growth trends, future prospects, and their contribution to the total market.
To share detailed information about the key factors influencing the growth of the market (growth potential, opportunities, drivers, industry-specific challenges and risks).
To project the consumption of LFP Cathode Material submarkets, with respect to key regions (along with their respective key countries).
To analyze competitive developments such as expansions, agreements, new product launches, and acquisitions in the market.
To strategically profile the key players and comprehensively analyze their growth strategies.