PUBLISHER: Polaris Market Research | PRODUCT CODE: 1504949
PUBLISHER: Polaris Market Research | PRODUCT CODE: 1504949
The global Lithium-Ion Battery Anode market size is expected to reach USD 123.79 billion by 2032, according to a new study by Polaris Market Research. The report "Lithium-Ion Battery Anode Market Share, Size, Trends, Industry Analysis Report, By Materials (Anode Binders, Active Anode Materials); By Battery Product; By End-User; By Region; Segment Forecast, 2024 - 2032" gives a detailed insight into current market dynamics and provides analysis on future market growth.
The market for lithium-ion battery anodes is poised for growth due to their reliability and suitability as an energy storage solution. These batteries are widely used in various applications, ranging from small-scale devices like mobile phones to larger ones like electric vehicles. The Li metal anodes possess several desirable qualities, such as the highest theoretical capacity, lightweight construction, and high energy density. These factors make them an attractive choice for applications with the lowest electrochemical potential compared to the standard hydrogen electrode.
However, before being utilized in larger applications, advanced batteries must meet specific requirements, including the ability to store more energy, occupy less space, and exhibit superior cyclic and rate capability. Currently, researchers are exploring alternative materials for anodes. They are conducting tests on various structural anode materials and experimenting with different anode chemistries. Silicon additive anodes, with their significantly larger specific capacity, hold promise in potentially replacing the standard anode material owing to efficiency, cost, and sustainability. Moreover, technologies have garnered significant attention due to their association with safety concerns, particularly the risk of fire, as well as the sustainability of the materials employed in the manufacturing of lithium-ion anode batteries, including materials such as cobalt, nickel, and magnesium, other than silicon.
The efficiency of Li-ion batteries can be greatly improved with this performance enhancement, surpassing the capabilities of currently available anodes in the market. Composite material design and structural design have been carried out by researchers in order to enhance electrical conductivity and minimize volume expansion. Diverse morphologies, including nanospheres, nanowires, nanotubes, and porous architectures, have been developed for SiO2 anode materials to enhance electrical efficiency and facilitate the diffusion of lithium ions. The rapidly growing electrical, electronics, and automotive industries demand batteries with increased energy densities, extended battery life, and quicker charging capabilities to meet the energy storage needs of applications such as electric vehicles and solar cells.
The active anode materials segment is projected to grow at a CAGR driven by high-capacity materials that improve overall performance and efficiency.
The anode binders segment has dominated the market over the forecast period, largely attributed to cost-effectiveness.
The automotive segment held the largest market share and is expected to grow at the fastest CAGR over the forecast period. Lithium-ion batteries are presently employed in the majority of electric vehicles.
The Asia Pacific region dominated the global market, owing to the increasing demand for consumer electronics and automobiles.
The global key market players include Johnson Matthey, Mitsubishi Chemical Group Corporation, Ningbo Shanshan Co., Ltd., Nippon Carbon Co., Ltd., POSCO FUTURE M, Resonac Holdings Corporation, SGL Carbon, Sumitomo Chemical Co., Ltd., etc.
Polaris Market Research has segmented the Lithium-Ion Battery Anode market report based on materials, battery product, end-user, and region: