Lithium Cobalt Phosphate powder is an olivine-structured lithium transition metal phosphate used primarily as a high-voltage cathode material for lithium-ion batteries. It is valued for its high operating potential, good thermal stability, and strong structural robustness, making it suitable for advanced energy storage research and specialized battery systems.
Lithium Cobalt Phosphate powder is supplied with controlled phase composition and stable chemical structure, suitable for electrochemical evaluation, cathode material development, and materials science research. The material is designed to support reproducible performance in laboratory-scale and pilot-scale battery studies.
Olivine-type crystal structure with high structural stability
High operating voltage compared with conventional cathode materials
Good thermal and chemical stability
Stable lithium-ion intercalation behavior
Suitable for high-voltage lithium-ion battery research
Compatible with common cathode formulation processes
High-Voltage Lithium-Ion Battery Cathodes:Lithium Cobalt Phosphate powder is used as a cathode active material in high-voltage lithium-ion battery systems and experimental energy storage devices.
Electrochemical & Battery Materials Research:It serves as a research material for studying high-voltage phosphate cathodes, lithium-ion transport mechanisms, and cycling behavior.
Advanced Energy Storage Development:LiCoPO₄ powder is applied in the development of next-generation lithium-ion batteries requiring higher energy density and improved safety.
Materials Science & Characterization:The material is used for structural, electrochemical, and thermal characterization of phosphate-based cathode materials.
Q1: What distinguishes Lithium Cobalt Phosphate from layered oxide cathodes?
A1: Lithium Cobalt Phosphate has an olivine structure that provides higher thermal stability and higher operating voltage compared with many layered oxide materials.
Q2: Is Lithium Cobalt Phosphate suitable for commercial batteries?
A2: It is mainly used in research and niche applications due to challenges associated with conductivity and processing, but it remains important for high-voltage battery development.
Q3: How should Lithium Cobalt Phosphate powder be stored?
A3: Store in sealed containers under dry conditions to prevent moisture uptake and maintain material stability.
Q4: Can Lithium Cobalt Phosphate be modified for improved performance?
A4: Yes, carbon coating, doping, and particle size control are commonly studied to enhance its electrochemical performance.
Each batch is supplied with:
Certificate of Analysis (COA)
Technical Data Sheet (TDS)
Material Safety Data Sheet (MSDS)
Third-party testing reports available upon request
Lithium Cobalt Phosphate powder offers a combination of high operating voltage and robust structural stability, making it a valuable reference and development material for high-voltage lithium-ion battery research and advanced energy storage studies.
Molecular formula: LiCoPO₄
Molecular weight: 183.84 g/mol
Appearance: Purple-red or dark red powder
Density: 3.81 g/cm³
Crystal structure: Orthorhombic
Inner Packaging: Vacuum-sealed bags and boxed to prevent contamination and moisture.
Outer Packaging: Cartons or wooden crates selected based on size and weight.
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