24M’s manufacturing process is a simple, space-efficient, low-cost, modular approach to lithium-ion battery manufacturing. The process, designed around the use of standard lithium-ion supply chain materials, results in greater than 50% CapEx savings versus a conventional manufacturing line.
A More Efficient Process & Cell Design
Unlike the standard lithium-ion process and product, 24M’s SemiSolid cell manufacturing process and platform give rise to a new class of low-cost, high energy density, extremely safe and reliable lithium-ion cells that accelerate the path to a better energy future.
Safety
SemiSolid electrodes and unit cell construction offer industry-leading abuse tolerance while virtually eliminating the possibility of metal contamination
Recyclability
Binder-free electrodes eliminate the need for hydro- or pyrometallurgical processes for battery recycling. This allows direct in-plant reuse of active material and end of life recycling
Reliability
The manufacturing platform and cell architecture remove possible paths to cell contamination and failure enhanced by unmatched abuse tolerance
Enabling the Future of Energy
24M’s revolutionary manufacturing and chemistry agnostic platform support current and next-generation cell chemistries and technologies, such as Silicon Electrode, Dual Electrolyte System, and Pre-Lithiation implementation.
Accelerate Production, Lower Costs
24M is solving the grand challenges for a better energy future by revolutionizing the lithium-ion cell manufacturing process and platform. We provide a simpler, more reliable, safer manufacturing process that accelerates production while lowering the costs of existing and next-generation cell technology for electric mobility, aerospace, stationary power and lead-acid replacement opportunities.
Accelerate Production, Lower Costs
24M is solving the grand challenges for a better energy future by revolutionizing the lithium-ion cell manufacturing process and platform. We provide a simpler, more reliable, safer manufacturing process that accelerates production while lowering the costs of existing and next-generation cell technology for electric mobility, aerospace, stationary power and lead-acid replacement opportunities.