Vanadyl oxalate is blue crystalline powder, which is also available in solution. It is a kind of catalyst of automobile exhaust. Vanadium pentaoxide is the raw material.
VO(C2O4)2 is an inorganic compound that serves as a critical precursor and reagent in various scientific, industrial, and technological applications. Known for its distinctive chemical structure and reactivity, it is used in material synthesis, catalysis, and environmental applications.
Vanadyl Oxalate
CAS No.:15500-04-6
Molecular Formula::VOC2O4.5H2O
Molecular Weight:245.02
| VOC2O4.5H2O | K | Ca | Na | Mg | Fe | Si | Mo | Al |
| ≥99% | ≤80ppm | ≤20ppm | ≤80ppm | ≤20ppm | ≤30ppm | ≤20ppm | ≤20ppm | ≤20ppm |
| Cu | Cr | Pb | Mn | Ni | Cd | Cl | NH4 | |
| ≤10ppm | ≤10ppm | ≤10ppm | ≤20ppm | ≤20ppm | ≤20ppm | ≤20ppm | ≤30ppm |
Applications
One of the primary applications of VO(C2O4)2 is in the synthesis of vanadium-based materials, particularly vanadium oxides. Vanadium oxides are widely recognized for their exceptional catalytic, electrochemical, and optical properties. These materials are used in energy storage systems like energy integration and grid stabilization.
In catalysis, VO(C2O4)2 is used to prepare catalysts for oxidation reactions in chemical processing and petrochemical industries. Its ability to act as a precursor for vanadium-containing catalysts ensures high efficiency in processes such as sulfur removal and hydrocarbon oxidation, contribuing to cleaner energy production and environmental protection.
Vanadyl oxalate also finds applications in advanced material research. It is utilized in creating thin films and coatings with unique electronic and optical properties, which are essential for manufacturing semiconductors, sensors, and other high-performance devices.
In environmental science, VO(C2O4)2 is studied for its potential role in water purification and pollutant degradation. Vanadium-based compounds derived from VO(C2O4)2 can act as photocatalysts, enabling the breakdown of organic contaminants in water and air.