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.  Other products: Titanate Series
Iron Titanate Aluminum Titanate Zinc Titanate
Sodium Bismuth Titanate Lead zirconate titanate Copper Calcium Titanate
Bismuth Titanate Lead Titanate Magnesium Titanate
Sodium Titanate Lithium Titanate Calcium Titanate
Potassium Titanate Potassium Titanate Whisker/Flake Barium Titanate
Sodium Potassium Titanate Barium Strontium Titanate Strontium Titanate
 Zirconate Series
Lanthanum Lithium Tantalum Zirconate Lanthanum Lithium Zirconate Lanthanum Zirconate
Lithium Zirconate Zinc Zirconate Cesium Zirconate
Lead Zirconate Magnesium Zirconate Calcium Zirconate
Barium Zirconate Strontium Zirconate  
 Tungstate Series
Lead Tungstate Cesium Tungstate Calcium Tungstate
Barium Tungstate Zirconium Tungstate  
 Vanadate Series
Cerium Vanadate Calcium Vanadate Strontium Vanadate
 Stannate Series
Lead Stannate Copper Stannate
 

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