Summary
– Addionics and IL Science have formed a partnership to integrate lithium metal with copper current collectors for lithium-metal batteries in EVs
– The collaboration aims to address safety, durability, and cost concerns associated with lithium metal batteries by combining technology from Addionics and IL Science
– Addionics is expanding its US manufacturing facilities to produce 3D copper foil to support battery capacity
– The partnership is driven by increasing demand for lithium metal batteries from battery manufacturers and the auto industry
– Dr. Moshiel Bitton, CEO of Addionics, emphasizes the importance of bringing high-performance lithium metal batteries to the market quickly through the collaboration with IL Science.
Article
Israel-based Addionics, a battery technology provider, has joined forces with US-based IL Science to enhance lithium metal batteries for electric vehicles by integrating lithium metal with next-generation copper current collectors. The partnership aims to address key challenges such as safety, durability, and cost concerns associated with the widespread adoption of lithium metal batteries. Addionics is expanding its US manufacturing facilities to produce 3D copper foil, which will support 90 GWh of battery capacity per year.
The collaboration between Addionics and IL Science is driven by the growing demand for lithium metal batteries in the battery manufacturing and automotive industries. Dr. Moshiel Bitton, CEO and co-founder of Addionics, highlighted the importance of developing 3D current collectors specifically designed for lithium metal batteries. By combining Addionics’ battery technology expertise and expanding manufacturing capabilities in the US with IL Science’s experience in the mobility market and mass production capabilities, the companies aim to bring high-performance lithium metal batteries to the market quickly.
Addionics’ 3D Current Collectors and IL Science’s lithium coating and treatment technologies are expected to play a crucial role in advancing lithium metal batteries for electric vehicles. With the ability to produce tens of thousands of tons of 3D copper foil annually, Addionics is positioned to support significant battery capacity and drive innovation in the EV sector. The partnership will leverage IL Science’s mass production experience and established supply chain to accelerate the development and commercialization of high-performance lithium metal batteries.
The collaboration between Addionics and IL Science underscores the importance of cross-border partnerships in advancing battery technology for electric vehicles. By combining Addionics’ innovative approach to battery technology with IL Science’s expertise in mass production and supply chain management, the companies are poised to overcome key barriers to the adoption of lithium metal batteries, paving the way for more efficient and cost-effective energy storage solutions for the automotive industry. The partnership represents a strategic alignment of complementary strengths and capabilities to drive innovation in the EV sector.
Dr. Bitton emphasized the critical role of accelerating the development of 3D current collectors for lithium metal batteries, given the increasing demand from battery manufacturers and the automotive industry. The collaboration between Addionics and IL Science is strategically positioned to meet this demand by leveraging their respective strengths and resources to bring high-performance lithium metal batteries to market quickly. By combining Addionics’ battery technology innovation with IL Science’s mass production capabilities, the partnership aims to address industry challenges and drive the adoption of lithium metal batteries for electric vehicles.
Overall, the partnership between Addionics and IL Science represents a significant step forward in advancing lithium metal batteries for electric vehicles. By combining their expertise in battery technology innovation, mass production, and supply chain management, the companies are well-positioned to accelerate the development and commercialization of high-performance lithium metal batteries. The collaboration highlights the importance of collaboration and partnerships in driving innovation and overcoming industry challenges in the rapidly evolving EV sector.
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