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Specifications
| Appearance | Orange-red solid |
| Assay (as C15H21FeO6) | 99% min |
| Cl | 0.20% max |
| SO4 | 0.30% max |
Applications
Ferric acetylacetonate (CAS 14024-18-1) is a coordination compound widely used in catalysis, materials science, and chemical synthesis. It serves as an efficient iron source and catalyst or catalyst precursor in organic reactions such as oxidation, epoxidation, polymerization, and cross-coupling processes. In materials chemistry, ferric acetylacetonate is commonly employed in the preparation of iron-containing films, nanoparticles, and magnetic materials through chemical vapor deposition (CVD), sol–gel methods, and thermal decomposition. It is also used as a dopant or precursor in the synthesis of ferrites, ceramics, and functional coatings. In research and industrial settings, it functions as a reagent for introducing iron into complex molecular systems and advanced materials.
Benefits
The benefits of ferric acetylacetonate arise from its good solubility in organic solvents, thermal stability, and controlled iron release. The acetylacetonate ligands stabilize the iron center, enabling uniform distribution and predictable reactivity in catalytic and materials applications. Its volatility and decomposition behavior make it suitable for thin-film deposition and nanoparticle synthesis. The compound is easy to handle, compatible with a wide range of reaction conditions, and allows precise control over iron content in final products. These properties support reproducible processes and high-quality outcomes in catalysis, coatings, and advanced material fabrication.
Conclusion
Ferric acetylacetonate is a versatile iron coordination compound used in catalysis, materials synthesis, and advanced manufacturing. Its stability, solubility, and suitability as an iron precursor enable efficient catalytic reactions and precise material design. By supporting the development of iron-based catalysts, coatings, and functional materials, ferric acetylacetonate remains an important reagent in modern chemical and materials science.

