Tesla "stormed" manganese-based cathode battery lithium battery manganese content may surge by more than 10 times

Published: Mar 31, 2022 08:09

Save

With the progress of material modification technology, the industrialization process of manganese-based cathode materials is accelerated. Lithium ferromanganese phosphate, as one of the most important improvement directions of lithium ferric phosphate, is expected to be the first to wait for industrial application. A few days ago, at the opening ceremony of Tesla's Berlin super factory, Musk said that Tesla is currently developing more materials to make batteries and now sees the chemical potential of manganese-based cathode batteries.

With the progress of material modification technology, the industrialization process of manganese-based cathode materials is accelerated, in which lithium ferromanganese phosphate, as one of the most important improvement directions of lithium iron phosphate, is expected to be the first to wait for industrial application. A few days ago, at the opening ceremony of Tesla's Berlin super factory, Musk said that Tesla is currently developing more materials to make batteries and now sees the chemical potential of manganese-based cathode batteries.

Compared with lithium iron phosphate, the biggest advantage of lithium manganese iron phosphate is that the voltage platform can be increased from 3.4V to 4.1V, which can increase the battery energy density by about 15%; second, it can be mixed with ternary materials to reduce the cost. Third, there is no need to make major changes to the production line, which is conducive to mass production and cost reduction. Analysts point out that thanks to the rapid growth of shipments of ternary cathode materials and lithium manganate materials, the amount of manganese used in lithium cathode materials is expected to exceed 300000 tons in 2025, and CAGR will be 32% in 2021-2025. With the increase of the permeability of the new manganese-based cathode materials, the amount of manganese used in lithium batteries is expected to surge to more than 1.3 million tons by 2035, more than 10 times that in 2021, but the dominant position of manganese used in iron and steel is difficult to change. the "dual pattern" of the manganese industry makes it easy to have a structural shortage of manganese raw materials for batteries.

According to the theme database of the Financial Associated Press, among the relevant listed companies:

Tianyuan share lithium iron manganese phosphate cathode material is in the pilot stage, and the newly built production line of lithium iron phosphate cathode material is completely compatible with the production line of lithium iron manganese phosphate cathode material, so the company can produce lithium iron manganese phosphate cathode material through simple adjustment of formula and process.

The production capacity of Tianyuan battery-grade manganese tetroxide at Sinosteel is 5000 tons / year.

Battery car

Data Source Statement: Except for publicly available information, all other data are processed by SMM based on publicly available information, market communication, and relying on SMM‘s internal database model. They are for reference only and do not constitute decision-making recommendations.

For any inquiries or to learn more information, please contact: lemonzhao@smm.cn

For more information on how to access our research reports, please contact:service.en@smm.cn

Related News

11 hours ago

Beijing Launches 500-kV Power Project in Fengtai, Boosting Grid Resilience and Industrial Growth

On January 28th, the construction of the 500-kilovolt power transmission and transformation project in Fengtai, Beijing officially started. This project is the first newly-built 500-kilovolt power grid project in Beijing during the 15th Five-Year Plan period. It will significantly enhance the resilience and power receiving capacity of the southern Beijing power grid and provide reliable power support for Beijing to continuously optimize the investment structure and vigorously develop high-end, precise, and cutting-edge industries. The 500-kilovolt power transmission and transformation project in Fengtai, Beijing is a key project of Beijing's power grid during the 15th Five-Year Plan period and one of the "3 100" key projects in Beijing this year. It is constructed and managed by the State

11 hours ago

Shaanxi-Anhui UHV DC Project's 500-kV AC System at Hezhou Station Begins Operation After Trial Run

On February 1st, the 500-kilovolt AC system of the Hezhou Converter Station, the receiving-end station of the ±800-kilovolt UHV DC power transmission project from northern Shaanxi to Anhui, was officially put into operation after a 24-hour trial run.

11 hours ago

750-kV Power Line Connecting Northern to Central Shaanxi Fully Operational

On February 2nd, the 750-kilovolt power transmission and transformation project of the third passageway from northern Shaanxi to central Shaanxi was fully connected. The project starts from the 750-kilovolt Shuofang Substation in Shenmu City in the north and ends at the 750-kilovolt Bailuyuan Substation in Lantian County in the south. It has newly built a 1,271-kilometer line, passing through 18 counties (districts) in 4 cities including Yulin, Yan'an, Weinan and Xi'an.

11 hours ago