Description
Atomfair Li6.5La3Zr1.5Ta0.25O12 (LLZTO) Garnet Solid Electrolyte
Product Overview
The Atomfair LLZTO Garnet Solid Electrolyte is a research-grade core material crafted from high-purity Li6.5La3Zr1.5Ta0.25O12 (LLZTO) garnet ceramic. It delivers exceptional ionic conductivity and chemical stability, tailored for R&D of next-generation energy storage devices. Available for small-batch sales with a default order quantity of 1 piece, it supports size customization to match diverse experimental requirements.
Core Specifications & Performance Parameters
| Specification Item | Specific Parameters |
|---|---|
| Chemical Composition & Grade | Li6.5La3Zr1.5Ta0.25O12 (LLZTO), Research Grade |
| Default Order Quantity | 1 piece per order |
| Melting Point | 1000? |
| Shape & Size | Circular: d12mm/d19mm; Customization supported (compatible with EQ-STC-LI-AIR and other split test batteries) |
| Thickness | 0.8mm |
| Density | >95% (Theoretical density: 5.257g/cm?) |
| Grain Size | ~5um |
| Ionic Conductivity (25?, Room Temperature) | 1.6*10?? S/cm |
| Physical Stability | Stable in air and aqueous environments |
| Reference | J. Mater. Chem., 2012, 22, 15357 *Optimizing Li? conductivity in a garnet framework* |
| Sales Model | Small-batch sales |
| Target Application | R&D of next-generation energy storage devices (lithium-air batteries, solid-state batteries, etc.) |
Core Functional Advantages
- High Ionic Conductivity & Leakage-free Design
As a solid electrolyte, it eliminates the leakage risk associated with liquid electrolytes, significantly enhancing battery safety. Its high room-temperature ionic conductivity (1.6*10?? S/cm) ensures efficient lithium-ion transmission, supporting stable charge-discharge cycles of lithium-air and solid-state batteries. - Superior Chemical & Environmental Stability
The garnet ceramic structure ensures excellent stability in both air and water, resisting degradation and side reactions during experiments. This consistency guarantees reliable, repeatable test data for new material R&D projects. - Flexible Compatibility & Customization
It is fully compatible with mainstream split test batteries such as EQ-STC-LI-AIR and STC-ZINCAIR-W. Custom size services are available to meet the specific needs of different laboratory test platforms and battery assembly scenarios.
Application Scenarios
This LLZTO garnet solid electrolyte is a key material for advanced energy storage R&D, ideal for the following scenarios:
- Lithium-air Battery R&D: Serves as the core solid electrolyte for experimental cell assembly, enabling safe and efficient ion transmission without electrolyte leakage.
- Solid-state Battery Research: Provides a high-performance garnet electrolyte sample for studying material compatibility, structural optimization, and electrochemical performance of solid-state battery systems.
- New Electrochemical Device Testing: Supports R&D of next-generation energy storage products with high cycle life and energy density, by minimizing side reactions and ensuring long-term stability.
Quality Compliance
- The LLZTO ceramic material is manufactured in accordance with ISO 9001 quality management standards, ensuring batch consistency and purity control for research applications.
- Dimensional accuracy meets ASTM C200 ceramic component precision specifications, matching the assembly requirements of split test batteries.
- Ionic conductivity testing adheres to IEC 62638 electrochemical performance test protocols for solid electrolytes, guaranteeing the reliability of performance data.
If you?re interested, have any questions, or have specific customization requirements, please feel free to contact us at inquiry@atomfair.com.
