Lithium Lanthanum Titanium Oxide (LLTO) is a compound that combines lithium, lanthanum, and titanium oxides.
Formula: LiₓLaₓTiₓOₓ, where the values of x and the overall stoichiometry depend on the specific formulation and intended application.
Oxide Structure: Lithium lanthanum titanium oxide typically adopts a complex perovskite or related crystal structure, which is characteristic of many metal oxide compounds. The structure often consists of titanium-oxygen octahedra surrounded by lanthanum and lithium ions.
Appearance: It is typically a solid ceramic material that is gray or light-colored, depending on the specific phase and processing.
Density: The density of lithium lanthanum titanium oxide varies depending on the stoichiometry and processing conditions but generally falls within the range of typical ceramic materials.
High Temperature Stability: It has high thermal stability and can be used at elevated temperatures without significant degradation.
Solid-State Batteries: Lithium lanthanum titanium oxide is studied as a candidate for solid-state lithium-ion batteries, where it could serve as an electrolyte. Its ability to conduct lithium ions while being an insulating material for electrons makes it suitable for use in these systems.
Electrochemical Capacitors: Due to its ionic conductivity properties, lithium lanthanum titanium oxide has potential applications in electrochemical capacitors and supercapacitors, where high conductivity and stability are required.
Fuel Cells: Some formulations of lithium lanthanum titanium oxide are being explored for use in solid oxide fuel cells (SOFCs) or other types of fuel cell systems that require high ionic conductivity and stability at elevated temperatures.
Catalysis: The compound may also have potential as a catalyst or catalyst support in certain high-temperature industrial reactions, particularly those involving oxidation or other ionic reactions.
Dielectric and Photovoltaic Applications: In some specialized forms, lithium lanthanum titanium oxide may also be explored for use in dielectric materials or photovoltaic devices, especially in the development of new materials for energy conversion and storage.
VI HALBLEITERMATERIAL GmbH (VIMATERIAL) employs a stringent quality assurance system to ensure the reliability of our product quality. Strict quality control is implemented throughout the entire production chain, and for defective products, we strictly enforce the principle of rework and redo. Each batch is released only after passing detailed specification tests.
Every batch of our materials is independently tested, and, if necessary, we send samples to certified companies for testing. We provide these documents and analysis certificates with the shipment to certify that our products meet the required standards.
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