Advanced Sodium Layered Oxide Cathode Material for Safer, Scalable Energy Storage
Tezta SLO – Sodium Layered Oxide (NaxMO₂)
As global energy storage markets expand beyond lithium, the demand for cost-effective, safe, and sustainable battery chemistries continues to grow. Tezta SLO Gen.0 delivers a next-generation sodium layered oxide cathode material, engineered to support scalable sodium-ion battery platforms without compromising performance or safety.
Developed in-house, Tezta SLO leverages abundant sodium resources and layered oxide chemistry to enable lower-cost, supply-secure, and industrially viable energy storage solutions for stationary and emerging mobility applications.
Tezta SLO is designed for industrial scalability, robust thermal stability, and compatibility with next-generation sodium-ion battery manufacturing—making it a practical alternative to lithium-based cathode systems.
Strategic Rationale
Sodium-ion batteries are gaining momentum as a sustainable and economically resilient energy s torage technology. The next phase of deployment requires cathode materials that are:
- Free from lithium and critical raw material constraints
- Cost-efficient and globally abundant
- Stable under demanding thermal and cycling conditions
- Compatible with existing and emerging cell manufacturing lines
- Scalable for mass-market stationary and mobility applications
Tezta SLO Gen.0 addresses these needs through optimized layered oxide chemistry, balancing energy density, safety, and long-term cycling performance.
Technical Performance Highlights
- High operating voltage for sodium-ion systems
- Competitive specific capacity for layered oxide chemistry
- Stable cycling performance and thermal robustness
- Reduced reliance on critical and scarce materials
- Industrially scalable, continuous synthesis process
Material Specifications
Business & Technology Advantages of Tezta SLO Gen.0
Controlled synthesis ensures uniform particle morphology and reproducible electrochemical performance across production batches.
Process architecture supports large-scale manufacturing for commercial sodium-ion battery deployment.
Sodium-based chemistry reduces exposure to lithium supply risks and critical mineral dependencies.
Balanced energy density and lifecycle performance tailored for price-sensitive energy storage markets.
Flexible composition tuning enables application-specific optimization for voltage, stability, and lifetime.
Applications
- Grid-scale and distributed stationary energy storage
- Renewable energy integration systems
- Backup power and UPS solutions
- Cost-optimized electric mobility and light transportation
- Next-generation sodium-ion battery architectures
Technology & Development
Tezta SLO Gen.0 represents a key milestone in Tezta’s sodium-ion battery materials roadmap. By combining layered oxide expertise with scalable production processes, Tezta enables partners to rapidly transition from material qualification to commercial deployment. Our application and development teams work closely with customers to adapt sodium layered oxide chemistry to specific cell designs, accelerating innovation while ensuring industrial readiness.
