Lithium Lanthanum Titanate (Li2La2TiO10, LLTO) is a cutting-edge anode material engineered for high-performance lithium-ion batteries. With exceptional ionic conductivity and structural stability, LLTO is optimized for next-generation energy storage applications, including electric vehicles (EVs), renewable energy systems, and portable electronics. This matjerial combines high theoretical capacity (258 mAh/g for LYTO, 225mAh/g for LLTO) with outstanding practical performance (210mAh/g for LYTO, 190-200mAh/g for LLTO), ensuring long cycle life and reliablity.
Lithium Lanthanum Titanate (LLTO) Anode material for Lithium-Ion Batteries
1.Superior Electrochemical Performance
- High Practical Capacity: Achieves 210 mAh/g (LYTO) and 190-200 mAh/g (LLTO), closely approaching theoretical limits (258 mAh/g and 225 mAh/g, respectively).
- Low Capacity Fades: Stable crystal structure (confirmed by XRD: Li2La2(Ti3O10)) ensures minimal degradation over cycles.
2.Optimized Particle Morphology
- Uniform Particle Size: D50 of 1.44μm enhances electrode homogeneity and ion diffusion efficiency.
- SEM-Verified Structure: Electron microscopy (SEM/TEM) confirms smooth, speherical particles for consistent electrode fabrication.
3.Enhanced Safety & Stability
- Thermal Resilience: Resists dendrite formation, reducing short-circuit risks.
- Wide Voltage Compatibility: Suitable for high-voltage battery systems.
4.Eco-Friendly & Cost-Effective
- Low cobalt/nickel content reduces environmental impact and raw material costs.
Technical Specifications
| Parameter | Details |
| Chemical Formula | Li2La2Ti3O10 (LLTO) |
| Particle Size (D50) | 1.44μm |
| Theoretical Capacity | LYTO:258 mAh/g; LLTO: 25 mAh/g |
| Practical Capacity | LYTO:~210 mAh/g; LLTO: 190-200 mAh/g |
| XRD Pattern | Matches Li2La2(Ti3O10) phase |
| Morphology | Sperhcail, agglomerate-free (SEM verified) |
Applications
- Solid-State Lithium Batteries: Ideal for high-energy-density solid-state electrolytes.
- EV Batteries: Extend driving range and reduces charging time.
- Grid Storage Systems: Supports long-duration energy storage.
- Consumer Electronics: Enhances lifespan of smartphones, laptops and wearables.
Why Choose our LLTO anode Material?
- R&D-Backed Innovation: Synthesized via advanced solid-state reactions for purity and performance.
- Customizable Solutions: Adjustable particle size and surface treatments available.
- Quality Assurance: Rigorous QC with batch-specific XRD/SEM reports.