LFP: Proven Chemistry, Scaled for Demand
LFP is known for its safety, thermal stability, long cycle life, and low cost. Western CAM’s LFP materials are optimized for high-throughput manufacturing and quality consistency — ensuring safe, durable, and efficient battery performance across a wide range of applications.
LMFP: Higher Energy, Same Reliability
Western CAM’s LMFP materials incorporate manganese into the LFP structure to increase energy density while maintaining safety and cycle life. Our process addresses the historical voltage instability challenges of LMFP, enabling stable operation at higher voltages and delivering improved performance for electric vehicles and grid storage systems.
Automotive OEMs
Western CAM’s LFP and LMFP materials provide automakers with safe, reliable, and cost-effective battery solutions. Enhanced thermal stability reduces the risk of thermal runaway, extends battery life, and lowers system costs. Our U.S.-compliant materials also help OEMs meet domestic content and regulatory requirements.
Industrial Applications
For heavy-duty equipment and commercial systems, Western CAM’s chemistries deliver the cycle life, durability, and energy density needed for demanding use cases. Increased uptime and reduced maintenance make our materials ideal for industrial power systems and off-road electrification.
Stationary Storage
Western CAM’s cost-effective cathode materials support scalable, long-duration energy storage for utilities, infrastructure, and commercial grid applications. Our LFP and LMFP chemistries deliver long cycle life, thermal stability, and consistent performance for mission-critical storage systems..
Our Technology
01
Supply Chain Independence
The U.S. currently relies on offshore producers for over 90% of Lithium Iron Phosphate (LFP) cathode materials — creating structural risk across electric vehicle and energy storage supply chains. Western CAM addresses this vulnerability by establishing domestic production capacity in the US, enabling secure, compliant, and resilient access to critical battery materials.
02
Cost and Performance
Western CAM’s production platform — built on the proven carbothermal reduction (CTR) method — delivers high-performance LFP and LMFP materials at competitive cost. Our chemistries offer enhanced energy density, safety, and durability, with process efficiency designed for scale and commercial reliability.
03
Technical Differentiation
Legacy LMFP production methods face well-known challenges with voltage instability and limited cycle life. Western CAM’s proprietary approach overcomes these barriers — enabling high-voltage operation without compromising safety or longevity. Our LMFP is built for deployment in real-world automotive and grid applications.
04
Compliance and Transparency
Offshore production of LFP and LMFP is often opaque and misaligned with U.S. and European regulatory standards. Western CAM provides full process transparency and manufactures to meet strict Western compliance frameworks — ensuring traceability, quality, and long-term viability for our customers.
The Case for Western CAM
The Case for Western CAM
Western CAM supports a diverse range of markets — including automotive, industrial, and stationary energy storage — by delivering high-performance, cost-competitive cathode active materials that meet the technical, regulatory, and operational needs of each sector.
Sector Focus
Transform Your Industry with Western CAM
Technology
Western CAM delivers high-performance, cost-competitive, U.S.-compliant cathode active materials — specifically Lithium Iron Phosphate (LFP) and Lithium Manganese Iron Phosphate (LMFP) — for automotive, industrial, and stationary energy storage markets. Our production approach is grounded in proven methods and decades of practical experience operating and scaling cathode manufacturing at global volume.