Lanthanum Lithium Tantalum Zirconate LLZTO powder as ceramic electrolyte material
Tantalum Lithium Lanthanum Zirconate (LLZTO) is a recently-developed ceramic electrolyte material for advanced solid state lithium-ion batteries.
Product Name: Lanthanum Lithium Tantalum Zirconate
Compound Formula: Li 6.4 La 3 Zr 1.4 Ta 0.6 O 12
Molecular Weight: 889.41
Appearance: White powder
Spec:
Purity | 99.5% min |
Particle size | 1-3 μm |
Fe2O3 | 0.01% max |
Na2O+K2O | 0.05% max |
TiO2 | 0.01% max |
SiO2 | 0.01% max |
Cl | 0.02% max |
S | 0.03% max |
H2O | 0.05% max |
Application:
Lithium lanthanum tantalum zirconate (LLZTO) is a newly developed ceramic electrolyte material for advanced solid-state lithium-ion batteries. The chemical formula of this innovative compound is Li6.4La3Zr1.4Ta0.6O12, its molecular weight is 889.41, and it appears as a fine white powder. LLZTO has attracted considerable interest in the energy storage field due to its potential to address the safety and performance limitations of traditional liquid electrolytes in lithium-ion batteries.
The applications of lithium lanthanum tantalum zirconate mainly revolve around its use as a solid-state electrolyte in advanced lithium-ion batteries. This material offers several advantages over traditional liquid electrolytes, including enhanced safety, improved stability and higher energy density. By using LLZTO as the electrolyte, solid-state lithium-ion batteries can achieve higher operating voltages, reduce the risk of thermal runaway, and extend cycle life. These properties make tantalum lithium lanthanum zirconate a promising solution for developing next-generation rechargeable batteries for a variety of applications, including electric vehicles, portable electronics and grid storage systems.
The unique properties of lithium lanthanum tantalum zirconate make it ideal for solving challenges associated with current lithium-ion battery technology. As a solid-state electrolyte, LLZTO exhibits high ionic conductivity at room temperature, which is critical for efficient operation of lithium-ion batteries. In addition, the compound's chemical and thermal stability facilitates the use of high-voltage cathode materials, thereby increasing energy density and improving overall battery performance. Through ongoing research and development efforts, lithium lanthanum tantalum zirconate is expected to play a key role in improving the performance of solid-state lithium-ion batteries, paving the way for a more sustainable and energy-efficient future.
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