Technology

At ACT-ion, we are redefining traditional CAM manufacturing methods. Our high-throughput continuous process significantly reduces the plant footprint required for production, while simultaneously producing high-strength, single crystal cathode particles that deliver exceptional cycle life, safety, and performance.

  • LFP

    Lithium Iron Phosphate (LFP) has emerged as a low cost, highly efficient and safe energy storage solution in various applications.

  • LMFP

    Lithium Manganese Iron Phosphate (LMFP) is a novel cathode material, combining the favorable properties of LFP with higher energy density.

  • NMC

    Nickel Manganese Cobalt (NMC) is renowned for its exceptional balance of high energy density density and favorable cycle life.

  • LMR

    Lithium Manganese Rich (LMR) is a next-generation CAM characterized by its substantially higher energy density.

ACT-ion's versatile manufacturing process, which is not limited to a single chemistry, offers extensive product and market flexibility. Additionally, its unique Multi-Shell+ product line enhances performance without increasing capital costs.

ACT-ion Multi-Shell+

ACT-ion's innovative earth-abundant high-energy SC CAMs, enhanced with multi-functional shell deposition and produced simultaneously through the continuous manufacturing process, offer significant performance and cost advantages.

  • Utilizing earth-abundant elements for CAMs enhances sustainability and reduces costs, while mitigating supply chain constraints for domestic manufacturing.

  • Protective shell on cathode particles are essential for enhancing the performance and longevity of lithium-ion batteries. This mitigates degradation mechanisms such as corrosion, oxidation, interface instability, and thermal instability that can occur during battery operation.

  • Conductive shell on cathode particles are a critical enhancement technology aimed at improving the electrochemical performance of batteries. This facilitates better electron transport during charge and discharge cycles, leading to higher energy efficiency, improved rate capability, and enhanced cycle stability.

  • Integrated with the continuous CAM synthesis, ACT-ion streamlines production, minimizing multiple processing steps and associated costs. The simultaneous shell generation not only decreases the time required for production but also leads to improved uniformity, ultimately contributing to better battery performance and lower manufacturing costs.