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Specifications
| Appearance | White powder |
| Assay (V2O5) | 65% min |
| K2O | 33% min |
| Cr | 0.05% max |
| Na | 0.5% max |
| Fe | 0.05% max |
| Cl | 0.01% max |
| As | 0.005% max |
Applications
Potassium metavanadate is widely used in chemical synthesis, catalysis, materials research, and analytical chemistry. It serves as a key inorganic reagent in oxidation reactions, enabling the transformation of alcohols, hydrocarbons, and other functional groups. In ceramics and glass manufacturing, it is used as a precursor to introduce vanadium-based colors or functional properties. In the field of catalysis, it contributes to the development of oxidation catalysts for petrochemical processes and fine chemical production. Potassium metavanadate is also used in electrochemical research, battery materials studies, and as a component in specialized coatings and corrosion-resistant formulations. In analytical chemistry and laboratory science, it is applied as a standard reagent or oxidant in titrations, redox studies, and spectroscopic preparation methods.
Benefits
Potassium metavanadate offers notable benefits due to its stability, strong oxidizing properties, and compatibility with various chemical systems. Its well-defined reactivity allows chemists to carry out controlled oxidation reactions with reliable outcomes, improving efficiency in synthesis workflows. The compound dissolves readily in aqueous solutions, forming vanadate species that are useful in catalytic and analytical applications. Its thermal and chemical stability supports its use in high-temperature materials processing and in the modification of glass or ceramic formulations. For catalysis research, its vanadium content enables the exploration of versatile catalytic mechanisms, enhancing the development of new processes for industrial chemistry. Its predictable behavior and broad applicability make it a dependable reagent for both laboratory and industrial settings.
Conclusion
Potassium metavanadate is a versatile inorganic compound valued for its oxidizing ability, stability, and wide applicability across catalysis, materials science, analytical chemistry, and industrial processing. Its functional performance and compatibility with diverse chemical environments make it an essential reagent for researchers and manufacturers working with oxidation reactions, advanced materials, and redox-based processes.
