In order to facilitate industry professionals or investors to further understand the current situation and prospects of the lithium battery silicon carbon anode material industryWisdomResearchCounselingLaunched2024-2030 China lithium battery silicon carbon anode material industry market supply and demand situation and development prospect research and judgment report(hereinafter referred to as the "Report"). The report makes a comprehensive combing and in-depth analysis of China's lithium battery silicon carbon anode material market, which is the presentation of Zhiyan Consulting's years of continuous tracking, field visits, research and analysis results.
In order to ensure the accuracy of the data and the reference value of the content of the lithium battery silicon carbon anode material industry, the Zhiyan consulting research team carries out data collection through multiple channels such as annual reports of listed companies, manufacturer research, dealer discussions, and expert verification, and conducts multi-dimensional analysis of the data, so as to deeply analyze various fields of the industry, so that practitioners can A comprehensive understanding of the development trend of the lithium battery silicon carbon anode material industry in 2023, as well as the hot spots of innovation frontiers, will enable lithium battery silicon carbon anode material practitioners to seize the transformation track.
The relatively mature composite methods of lithium battery silicon carbon anode materials mainly include hydrothermal method, physical mixing method, chemical vapor deposition method, template method, electrostatic or electrospinning method, etc. Using these methods, researchers have developed silicon-carbon materials with different composite structures, such as silicon-coated carbon, carbon-coated silicon, silicon-carbon core-shell, and silicon-carbon composite. The carbon in these composites mainly includes amorphous carbon, graphite, graphene and carbon nanotubes.
As early as the 90s of the 20th century, Sony, Panasonic and other overseas companies began to research and industrialize silicon carbon anodes, but due to product quality, first efficiency, cycle stability and other reasons, the application scenarios of silicon carbon anodes are still limited to a certain extent. At present, the silicon carbon anode that has been commercialized is mainly used in consumer electronics, power tools and other fields that are relatively low cost sensitive, and the penetration rate in the field of power batteries is relatively low. According to the data, the market size of China's lithium battery silicon carbon anode material industry in 2022 will be about 84.2 billion yuan, of which East China accounted for the heaviest proportion, accounting for 3741%。
At present, the competitors in the silicon carbon anode material industry mainly include domestic enterprises and foreign enterprises. Domestic enterprises mainly include beiteri, Shanshan shares, etc., these enterprises have strong R&D capabilities and production capacity in the field of silicon carbon anode materials, and are leaders in the domestic market. Foreign companies mainly include Hitachi of Japan, POSCO of South Korea, etc., which have a high technical level and brand influence in the field of silicon carbon anode materials, and are leaders in the international market.
In 2021, the company became the global polarizer business leader through the acquisition of LG Chem's polarizer business. In recent years, the company has continued to implement the focus strategy and made every effort to develop the two core advantageous businesses of lithium battery anode materials and polarizers, forming a dual technology engine of "lithium battery anode materials + polarizers" and a dual development power business pattern. According to the company's annual report, the revenue of anode materials of Shanshan Co., Ltd. in 2022 will be 805.7 billion yuan.
With the transformation of the global energy structure, the demand for lithium batteries, as an important part of the new energy field, has shown a rapid growth trend in recent years. As an important part of lithium batteries, the development trend of silicon carbon anode materials is attracting increasing attention. In the future, the industrial chain integration trend of China's lithium battery silicon carbon anode material industry will be more obvious. From raw materials to downstream applications, enterprises in all links will form closer cooperative relations to improve the efficiency of the entire industrial chain.
China lithium battery silicon carbon anode material industry market supply and demand situation and development prospect research and judgment reportIt is an important achievement of Zhiyan Consulting, a powerful embodiment of Zhiyan Consulting's leadership in industry reform, affection for the industry, and implementation of its mission, and an indispensable tool for practitioners in the field of lithium battery silicon carbon anode materials to take the pulse of the industry. Zhiyan Consulting has formed a complete and three-dimensional think tank system, which has served enterprises, financial institutions, etc., for many years, providing services such as science and technology, consulting, education, ecology, and capital.
Data Description:
1: The core data of this report is updated to December 2023, mainly based on Chinese mainland data, and a small amount of global and related regional data;**The interval covers 2024-2030, and the data content involves the output of lithium battery silicon carbon anode material products, industry output value, sales revenue, market size, products**, etc.
2: In addition to the first-hand research information and data, authoritative data sources such as the National Bureau of Statistics, China Customs, industry associations, and public reports of listed companies (prospectuses, transfer prospectuses, annual reports, inquiry reports, etc.) also constitute the data of this report**. First-hand information** is based on the first-hand information data obtained by the research team from interviews with key enterprises in the industry, and the main interview subjects include corporate executives, industry experts, technical leaders, downstream customers, distributors, distributors, distributors and upstream raw material suppliersSecondary information** mainly includes relevant industry news, company annual reports, non-profit organizations, industry associations, ** institutions and third-party databases around the world.
3: The core data of the report is based on the company's strict data collection, screening, processing, analysis system and independent calculation model to ensure the accuracy and reliability of statistical data.
4: The data used in this report are all from compliance channels, and the analysis logic is based on the professional understanding of the Zhiyan team, which clearly and accurately reflects the research views of analysts.
Report Table of Contents Framework:
Chapter 1 Overview of the development of lithium battery silicon carbon anode material industry
1.1 Definition and classification of lithium battery silicon carbon anode material industry.
1.1.1 Industry Definition.
1.1.2 Classification of major products in the industry.
1.1.3 The main business models of the industry.
1.2 Analysis of the characteristics of lithium battery silicon carbon anode material industry.
1.2.1 Industry chain analysis.
1.2.2 The position of lithium battery silicon carbon anode material industry in the national economy.
1.2.3 Life cycle analysis of lithium battery silicon carbon anode material industry.
1.3 Analysis of economic indicators of China's lithium battery silicon carbon anode material industry in the past 3-5 years.
1.3.1 Profitability.
1.3.2 Growth rate.
1.3.3. Room for added value improvement.
1.3.4 Barriers to entry Exit mechanisms.
1.3.5 Risk.
1.3.6 Industry Cycles.
1.3.7 Competitive Intensity Indicators.
1.3.8 Maturity analysis of the industry and its main sub-sectors.
Chapter 2 Analysis of the operating environment of lithium battery silicon carbon anode material industry
2.1 Analysis of the political and legal environment of the lithium battery silicon carbon anode material industry.
2.1.1. Analysis of industry management system.
2.1.2 Major laws and regulations of the industry.
2.1.3. Industry-related development plans.
2.2 Analysis of the economic environment of lithium battery silicon carbon anode material industry.
2.2.1. Analysis of the international macroeconomic situation.
2.2.2 Analysis of the domestic macroeconomic situation.
2.2.3. Analysis of the macroeconomic environment of the industry.
2.3 Analysis of the social environment of the lithium battery silicon carbon anode material industry.
2.3.1. The social environment of lithium battery silicon carbon anode material industry.
2.3.2 The impact of the social environment on the industry.
2.3.3 The impact of the development of lithium battery silicon carbon anode material industry on social development.
2.4. Technical environment analysis of lithium battery silicon carbon anode material industry.
2.4.1 Technical analysis of silicon carbon anode materials for lithium batteries.
2.4.2. The technical development level of silicon carbon anode materials for lithium batteries.
2.4.3 The main technological development trends of the industry.
Chapter 3 Analysis of the operation of China's lithium battery silicon carbon anode material industry
3.1 Analysis of the development status of China's lithium battery silicon carbon anode material industry.
3.1.1 The development stage of China's lithium battery silicon carbon anode material industry.
3.1.2 The overall development of China's lithium battery silicon carbon anode material industry.
3.1.3 Analysis of the development characteristics of China's lithium battery silicon carbon anode material industry.
3.2 2019-2023 lithium battery silicon carbon anode material industry development status.
3.2.1 2019-2023 market size of China's lithium battery silicon carbon anode material industry.
3.2.2 Analysis of the development of China's lithium battery silicon carbon anode material industry from 2019 to 2023.
3.2.3 2019-2023 China lithium battery silicon carbon anode material enterprise development analysis.
3.3 Regional Market Analysis.
3.3.1 Overall distribution of regional markets.
3.3.2 Market analysis of key provinces and cities from 2019 to 2023.
3.4 Lithium battery silicon carbon anode material product service analysis.
3.4.1 2019-2023 lithium battery silicon carbon anode material ** trend.
3.4.2 Analysis of key factors affecting silicon carbon anode materials for lithium batteries.
3.4.3 2024-2030 lithium battery silicon carbon anode material product service ** change trend.
3.4.4. The price and strategy of major lithium battery silicon carbon anode material companies.
Chapter 4 Analysis of the overall operation index of the industry to which China's lithium battery silicon carbon anode materials belong
4.1 Analysis of the overall scale of China's lithium battery silicon carbon anode material industry from 2019 to 2023.
4.1.1 Analysis of the number structure of enterprises.
4.1.2. Analysis of the size of the staff.
4.1.3 Analysis of the asset scale of the industry.
4.1.4 Industry market size analysis.
4.2 Analysis of the production and sales of China's lithium battery silicon carbon anode materials from 2019 to 2023.
4.2.1. The total industrial output value of China's lithium battery silicon carbon anode material industry.
4.2.2 The industrial sales output value of China's lithium battery silicon carbon anode materials in the industry.
4.2.3 The production and sales rate of China's lithium battery silicon carbon anode materials industry.
4.3 Overall analysis of the financial indicators of China's lithium battery silicon carbon anode material industry from 2019 to 2023.
4.3.1 Industry profitability analysis.
4.3.2 Industry solvency analysis.
4.3.3. Analysis of industry operating capabilities.
4.3.4. Analysis of industry development capabilities.
Chapter 5 Analysis of the supply and demand situation of China's lithium battery silicon carbon anode material industry
5.1 2019-2023 lithium battery silicon carbon anode material industry supply analysis.
5.2 Regional supply analysis of lithium battery silicon carbon anode material industry.
5.3 2019-2023 demand for silicon carbon anode materials for lithium batteries in China.
5.4. Distribution pattern of downstream customers in the lithium battery silicon carbon anode material industry.
5.5 Distribution of market demand by region.
Chapter 6 Analysis of the Industrial Structure of Lithium Battery Silicon Carbon Anode Material Industry
6.1 Industrial structure analysis of silicon carbon anode materials for lithium batteries.
6.1.1 Analysis of the adequacy of market segmentation.
6.1.2 Ranking of leading companies by segment.
6.1.3 Structural proportion of each segment to the total market.
6.1.4 Structural analysis of leading companies (ownership structure).
6.2. Structural analysis of the industrial value chain and the overall competitive advantage of the industrial chain.
6.2.1. The composition of the industrial value chain.
6.2.2. Analysis of the competitive advantages and disadvantages of the industrial chain.
6.3. Industrial structure development**.
6.3.1. Analysis of guiding policies for industrial structure adjustment.
6.3.2. The guiding factors of consumer demand in the adjustment of industrial structure.
6.3.3. The strategic market positioning of China's lithium battery silicon carbon anode material industry to participate in international competition.
6.3.4. Analysis of the direction of industrial structure adjustment.
Chapter 7 Analysis of the industrial chain of China's lithium battery silicon carbon anode material industry
7.1 Analysis of the industrial chain of lithium battery silicon carbon anode material industry.
7.1.1. Analysis of industrial chain structure.
7.1.2. Value-added space in the main links.
7.1.3 Relevance to upstream and downstream industries.
7.2 Analysis of upstream industries of lithium battery silicon carbon anode materials.
7.2.1. The cost composition of lithium battery silicon carbon anode material products.
7.2.2 The development status of the upstream industry from 2019 to 2023.
7.2.3 Upstream industry development trend from 2024 to 2030.
7.2.4 The impact of upstream supply on the lithium battery silicon carbon anode material industry.
7.3 Analysis of downstream industries of silicon carbon anode materials for lithium batteries.
7.3.1 Distribution of downstream industries of lithium battery silicon carbon anode materials.
7.3.2 Development status of downstream industries from 2019 to 2023.
7.3.3 Downstream industry development trends from 2024 to 2030.
7.3.4 The impact of downstream demand on the lithium battery silicon carbon anode material industry.
Chapter 8 Channel Analysis and Strategy of China's Lithium Battery Silicon Carbon Anode Material Industry
8.1 Lithium battery silicon carbon anode material industry channel analysis.
8.1.1 Channel form and comparison.
8.1.2 The impact of various channels on the lithium battery silicon carbon anode material industry.
8.1.3 Research on the channel strategy of major lithium battery silicon carbon anode material enterprises.
8.2 User analysis of lithium battery silicon carbon anode material industry.
8.2.1 Analysis of user cognition.
8.2.2. Analysis of user demand characteristics.
8.2.3 Analysis of the user's path to purchase.
8.3 Analysis of marketing strategy of lithium battery silicon carbon anode material industry.
Chapter 9 Competition Situation and Strategy of China's Lithium Battery Silicon Carbon Anode Material Industry
9.1. Analysis of the overall market competition in the industry.
9.1.1 Analysis of the competitive structure of the lithium battery silicon carbon anode material industry.
1) Competition between existing firms.
2) Potential entrant analysis.
3) Alternative Threat Analysis.
4) Negotiating power.
5) Customer bargaining power.
6) Summary of the characteristics of the competitive structure.
9.1.2 Analysis of the competition pattern between enterprises in the lithium battery silicon carbon anode material industry.
9.1.3 Concentration analysis of lithium battery silicon carbon anode material industry.
9.1.4 SWOT analysis of lithium battery silicon carbon anode material industry.
9.2 Overview of the competition pattern of China's lithium battery silicon carbon anode material industry.
9.2.1 Competition in the lithium battery silicon carbon anode material industry.
9.2.2 Analysis of the competitiveness of China's lithium battery silicon carbon anode material industry.
1) Analysis of the competitiveness of China's lithium battery silicon carbon anode material industry.
2) The advantages of market competition in China's lithium battery silicon carbon anode material enterprises.
3) Ways to improve the competitiveness of domestic lithium battery silicon carbon anode material enterprises.
9.2.3 Analysis of market competition strategy of lithium battery silicon carbon anode materials.
Chapter 10 Analysis of the business situation of leading enterprises in the lithium battery silicon carbon anode material industry
10.1 Ningbo Shanshan shares***
10.1.1 Company Profile.
10.1.2 Analysis of enterprise advantages.
10.1.3 Product Service features.
10.1.4 The company's operating conditions.
10.1.5. Company development plan.
10.2 Beiteri New Materials Group shares***
10.2.1 Company Profile.
10.2.2 Analysis of enterprise advantages.
10.2.3 Product Service features.
10.2.4 The company's operating conditions.
10.2.5. Company development plan.
10.3 Gotion Hi-Tech shares***
10.3.1 Company Profile.
10.3.2 Analysis of enterprise advantages.
10.3.3 Product Service features.
10.3.4 The company's operating conditions.
10.3.5. Company development plan.
10.4 Shenzhen Xiangfenghua Technology Co., Ltd. ***
10.4.1 Company Profile.
10.4.2 Analysis of enterprise advantages.
10.4.3 Product Service features.
10.4.4 The company's operating conditions.
10.4.5. Company development plan.
10.5 Shanghai Putailai New Energy Technology Co., Ltd. ***
10.5.1 Company Profile.
10.5.2 Analysis of enterprise advantages.
10.5.3 Product Service features.
10.5.4 The company's operating conditions.
10.5.5. Company development plan.
Chapter 11 Investment Prospects of Lithium Battery Silicon Carbon Anode Materials Industry from 2024 to 2030
11.1 2024-2030 lithium battery silicon carbon anode material market development prospects.
11.1.1 2024-2030 lithium battery silicon carbon anode material market development potential.
11.1.2 2024-2030 lithium battery silicon carbon anode material market development prospects.
11.1.3 Analysis of the development prospect of lithium battery silicon carbon anode material subdivision industry from 2024 to 2030.
11.2 2024-2030 lithium battery silicon carbon anode material market development trend**.
11.2.1 2024-2030 lithium battery silicon carbon anode material industry development trend.
11.2.2 Market size of silicon carbon anode materials for lithium batteries from 2024 to 2030**.
11.2.3 2024-2030 lithium battery silicon carbon anode material industry application trend**.
11.2.4 Segment development trends from 2024 to 2030**.
11.3 Supply and demand of China's lithium battery silicon carbon anode material industry from 2024 to 2030**.
11.3.1 2024-2030 supply of silicon carbon anode materials for lithium batteries in China.
11.3.2 2024-2030 China's lithium battery silicon carbon anode material industry demand**.
11.3.3 2024-2030 China's lithium battery silicon carbon anode material supply and demand balance**.
11.4. Key trends affecting the production and operation of enterprises.
11.4.1 Market consolidation growth trend.
11.4.2 Changing demand trends and new business opportunities**.
11.4.3. The trend of regional market expansion of enterprises.
11.4.4 Trends in scientific research and development and progress in alternative technologies.
11.4.5 Key trends influencing the way businesses sell and serve.
Chapter 12 Investment Opportunities and Risks in the Lithium Battery Silicon Carbon Anode Material Industry from 2024 to 2030
12.1. Investment and financing of lithium battery silicon carbon anode material industry.
12.1.1. Analysis of industry funding channels.
12.1.2 Analysis of investment in fixed assets.
12.1.3. Analysis of mergers and acquisitions.
12.2 Investment opportunities in the lithium battery silicon carbon anode material industry from 2024 to 2030.
12.2.1. Investment opportunities in the industrial chain.
12.2.2 Segment Investment Opportunities.
12.2.3 Investment opportunities in key areas.
12.3 2024-2030 lithium battery silicon carbon anode material industry investment risk and prevention.
12.3.1. Policy risks and prevention.
12.3.2 Technical risks and prevention.
12.3.3. Supply and demand risks and prevention.
12.3.4. Macroeconomic fluctuation risk and prevention.
12.3.5. Risks and prevention of related industries.
12.3.6. Product structure risk and prevention.
12.3.7 Other Risks and Prevention.
Chapter 13 Research on Investment Strategy of Lithium Battery Silicon Carbon Anode Material Industry
13.1. Research on the development strategy of lithium battery silicon carbon anode material industry.
13.2 Strategic thinking on the brand of silicon carbon anode materials for lithium batteries in China.
13.3 Analysis of business strategy of silicon carbon anode materials for lithium batteries.
13.4. Research on investment strategy of lithium battery silicon carbon anode material industry.
Chapter 14 Research Conclusions and Investment Recommendations
14.1 Research conclusion of lithium battery silicon carbon anode material industry.
14.2 Evaluation of investment value of lithium battery silicon carbon anode material industry.
14.3 Investment suggestions for lithium battery silicon carbon anode material industry.
14.3.1. Suggestions on industry development strategies.
14.3.2. Suggestions on the direction of industry investment.
14.3.3. Suggestions on industry investment methods.
Table of Contents of Charts:section
Figure 1: Diagram of the lithium storage mechanism of silicon.
Figure 2: Silicon-carbon composite structural design category.
Figure 3: The current life cycle of the lithium battery silicon carbon anode material industry.
Figure 4: China's lithium battery silicon carbon anode material shipments and growth rate from 2018 to 2023.
Exhibit 5: Industry-related policies.
Exhibit 6: Industry-related policy planning.
Chart 7: Global GDP performance, 2018-2023.
Chart 8: China's GDP development from 2018 to 2023.
Figure 9: 2018-2023 China lithium battery silicon carbon anode material industry related patent number trend chart.
Figure 10: 2018-2023 China lithium battery silicon carbon anode material industry applicant ranking trend analysis.
See text for more charts.
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