Advanced LMFP Cathode Material for Safer, Scalable Energy Storage
Tezta LMFP – Lithium-Manganese-Iron-Phosphate
As global energy storage and electric mobility markets demand higher performance without sacrificing safety or sustainability, Tezta LMFP Gen.0 delivers a next-generation cathode material solution. Developed in-house, this Lithium-Manganese-Iron-Phosphate chemistry builds on proven LFP foundations while unlocking higher energy density and broader commercial applicability.
Tezta LMFP is engineered for industrial scalability, supply-chain resilience, and compatibility with emerging battery technologies—making it a practical evolution of LFP for future battery platforms.
Strategic Rationale
Lithium Iron Phosphate (LFP) is the benchmark for safety and durability. The next phase of battery deployment requires materials that are:
- Higher in specific energy than LFP
- Stable under demanding thermal conditions
- Sourced from secure, non-critical material chains
- Compatible with existing and next-generation manufacturing
- Commercially scalable from day one
Tezta LMFP Gen.0 meets these requirements through manganese-enhanced chemistry combined with an LFP-derived production framework.
Technical Performance Highlights
- Specific energy density improvement: 5–10% vs LFP
- High specific capacity: ≥ 145 mAh/g
- Excellent thermal and operational safety
- Sustainability-focused sourcing
- Scalable, continuous production process
Material Specifications
Business & Technology Advantages of Tezta LMFP Gen.0
A controlled, continuous production process ensures homogeneous particle structure and reproducible electrochemical performance.
Engineered for large-volume manufacturing under stable operating conditions.
Tezta LMFP utilizes widely available, non-critical materials, ensuring long-term supply security and strong alignment with ESG principles.
Delivers higher specific energy and capacity without compromising thermal stability or safety.
Tezta LMFP Gen.0 provides a versatile foundation for next-generation battery innovations, including:
- NMC-LMFP blended cathodes
- Dry electrode coating technologies
- Solid-state battery development
Applications
- Electric mobility platforms
- Industrial and grid-scale stationary energy storage
- High-safety battery systems
- Advanced cell designs and next-generation battery architectures
Technology & Development
Tezta LMFP Gen.0 represents a strategic step in our battery materials roadmap, combining established LFP know-how with targeted material innovation. Tezta’s application and development teams support partners in adapting LMFP chemistry to application-specific battery designs, accelerating the transition from lab innovation to commercial deployment.
