ElectronicsMoney & Funding

Ampcera and LLNL awarded $1.5M to 3D print lithium batteries

Specifically for the development of faster charging and higher energy density batteries

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The U.S. Department of Energy (DOE) has awarded $1.5 million to Ampcera and Lawrence Livermore National Laboratory (LLNL) to develop a safer lithium battery with higher power and energy densities using a low-cost, high-throughput dry additive manufacturing process.

The joint project between LLNL and Ampcera is one of six Energy Systems projects selected for an award from DOE’s Advanced Manufacturing Office to reduce industrial emissions and manufacture clean energy technologies.

The proposed dry additive manufacturing technology is highly energy-efficient – with >10 times the throughput of conventional slurry-based processing – reducing lithium battery manufacturing costs by 50% or more.

Ampcera and LLNL awarded $1.5M to 3D print lithium batteries. For the development of faster charging and higher energy density batteries.
Compared with conventional slurry-based film electrode manufacturing methods, dry laser powder bed fusion 3D printing is promising in generating structured electrodes for high power, low cost lithium ion batteries. Image by Jianchao Ye

“The environmentally benign process allows for thick, high-capacity 3D cathode structures to be processed, enabling lithium-ion batteries to reach the fast-charging goal of 80% charge in 15 minutes or less,” said staff scientist and principal investigator Jianchao Ye of LLNL.

As an innovator in developing and manufacturing advanced materials for solid-state batteries, Ampcera has a vested interest in this project. In addition to developing structured cathodes for lithium-ion batteries, Ampcera also plans to further develop this technology for manufacturing solid-state batteries.

“The partnership between LLNL and Ampcera will accelerate the development and commercialization of the ultra-fast and low-cost additive manufacturing technology for high-performance lithium battery manufacturing. After developing 3D-structured cathodes, we expect to expand the technology to anode design and also further explore its application in all-solid-state Li metal batteries with even higher energy and power densities,” said co-investigator Hui Du, Chief Technology Officer and Co-Founder of Ampcera.

“Ampcera is supporting this project as we believe it has the potential to revolutionize the scaled manufacturing of solid-state batteries with intrinsic safety, high energy density >450 Wh/kg, and a low cost of <$75 per kWh,” said Sumin Zhu, Chief Executive Officer, and Co-Founder of Ampcera.

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