Time:2024.12.04Browse:0
Analysis of the core technology level of 502030 battery electrolyte
Benefiting from the strong demand for consumer electronic products represented by mobile phones, electric vehicles, laptops, digital products, etc., the global 502030 battery industry has maintained a high-speed growth trend in recent years. Lithium-ion batteries are mainly composed of four parts: positive electrode materials, negative electrode materials, electrolytes, and diaphragms. Electrolyte is one of the key raw materials for lithium-ion batteries and is the blood of lithium-ion batteries. Lithium hexafluorophosphate (LIPF6) is the core material of 502030 battery electrolytes, commonly known as lithium salt, and is the electrolyte with the best performance and the largest usage. The ratio of lithium hexafluorophosphate to organic solvent (including additives) is about 1:7, and its cost accounts for about 50%-70% of the total electrolyte production cost. At present, the price of lithium hexafluorophosphate is 250,000-300,000 yuan/ton, and the gross profit margin is about 60%. It is one of the parts with the highest added value in 502030 battery materials. The technical research and development level, production and supply capacity, and price level of lithium hexafluorophosphate largely affect the development scale and profit level of the 502030 battery industry. Domestic lithium-ion electrolyte manufacturers basically purchase lithium hexafluorophosphate from Japanese companies to produce 502030 battery electrolyte products. Before the company successfully achieved large-scale production, the production technology of this product was basically monopolized by three Japanese companies: Kanto Denka, Suterakemifa, and Morita Chemical. Tianci successfully broke through the technical barriers and achieved large-scale production of lithium hexafluorophosphate. In 2011, the company had a production capacity of 300 tons of lithium hexafluorophosphate. The company's lithium hexafluorophosphate products are mainly used for self-use, and 502030 battery electrolyte products are configured for external sales. In 2011, the production capacity of 502030 battery electrolyte was 2,540 tons. The rapid development trend of new energy vehicles will bring explosive growth to the 502030 battery industry. It is understood that the capacity of a 502030 battery in an electric car is 10,000 times that of a mobile phone battery. According to the forecast of Japan's Institute of Information Technology (IIT), the global production of new energy vehicles will reach 6.89 million. Based on the average consumption of 40 kg of 502030 battery electrolyte per new energy vehicle, the global demand for 502030 battery electrolyte for new energy vehicles will be about 275,800 tons by 2019, with a compound growth rate of 86%. Industry analysts predict that the market capacity of lithium hexafluorophosphate will show rapid growth in the future. Once there is a breakthrough in the new energy vehicle market, it will bring geometric growth to upstream 502030 battery electrolytes and lithium hexafluorophosphate.
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