Are Kirin batteries lithium iron phosphate?

It's ternary lithium. In the ternary lithium chemical system, the group energy density and volume energy density of Kirin batteries reach 250Wh/kg and 450Wh/L respectively. In the lithium iron phosphate chemical system, the group energy density and volume energy density reach 160Wh/kg and 290Wh/L, respectively. Yes. Kirin's batteries use high manganese materials, and demand for Red Star development has exploded. At that time, the company's main products were manganese series and inorganic salts (strontium and barium), and it was at the point of industrial processing and demand explosion. Manganese is the least anticipated metal, both in current and future new energy battery material systems. It mainly covers lithium manganate, ternary cathode, lithium iron manganese phosphate, lithium cathode,sodium-ion battery and future lithium-rich manganese materials. As one of the four major technical routes for lithium batteries, lithium manganate has unprecedented cost-effective advantages in 3C fields, two-wheeled electric vehicles, A00 class electric vehicles and other fields . The industry expects a future growth rate of over 30% and the ternary cathode will benefit from high energy density. In the future, it will keep pace with lithium iron phosphate, and the proportions of NCM622 and 811 will continue to increase. Lithium iron manganese phosphate is an improved version of lithium iron phosphate, with an energy density increased by 15 to 20%, reaching the level of ternary nickel. Founder Nano, an industry-leading company, is already ramping up its production capabilities, with sodium-ion batteries poised to make a splash in the energy storage sectors.energy and electricity. The second generation sodium battery launched by Contemporary Ampere Technology Co., Ltd. uses a high manganese-based Prussian white cathode material with a manganese content of 38%. Lithium-rich manganese materials are considered the next generation of high-performance cathode materials. Among the five materials mentioned above, the manganese source of lithium manganate is electrolytic manganese dioxide, and the other manganese sources are high purity manganese sulfate. . Manganese Pricing: Currently, 90% of manganese is used in metallurgy, and the manganese resource pricing system mainly depends on the metallurgical industry. Therefore, although the prices of manganese dioxide, lithium manganate and manganese sulfate have increased significantly this year, the price of manganese oreanganese remained generally stable, or even decreased. Manganese resources are abundant and the cost is low. Taking electrolytic manganese as an example, even after a sharp increase, the price is only 40,000/ton, which is much lower than that of new energy metals such as nickel, cobalt and lithium. Therefore, in the era of great development of new energy vehicles, it is inevitable to choose metal materials with cost advantages, and the technology has matured.