Zirconium(IV) Acetylacetonate: A Versatile Compound for Advanced Materials and Catalysis
Discover the key applications and chemical properties of this essential organometallic compound for industrial innovation.
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Zirconium tetrakis(2,4-pentanedionato)
This high-purity organometallic compound, known for its CAS number 17501-44-9, serves as a critical precursor in the synthesis of advanced materials, particularly zirconia. Its applications span into sol-gel processes for creating thin films and nanostructured materials, enhancing the performance of various industrial products.
- Leverage the power of Zirconium(IV) Acetylacetonate precursor for your material synthesis needs.
- Explore the synthesis of zirconia thin films with exceptional properties for electronic and optical applications.
- Utilize this organometallic compound as a catalyst in organic synthesis, improving reaction yields and selectivity.
- Benefit from the reliable supply of Zirconium(IV) Acetylacetonate for your research and development projects.
Key Advantages
Versatile Precursor
As a Zirconium(IV) Acetylacetonate precursor, it enables the creation of materials with superior thermal and mechanical properties, crucial for demanding applications.
Catalytic Efficiency
Its role as a catalyst in organic synthesis, including polymerization and oxidation, makes it invaluable for chemical innovation.
Advanced Material Synthesis
The compound is instrumental in sol-gel processes, facilitating the development of thin films and nanostructured materials with tailored functionalities.
Key Applications
Materials Science
Used as a precursor for zirconia synthesis, this compound is vital for producing ceramics, coatings, and other advanced materials.
Catalysis
Acts as an effective catalyst in various organic synthesis reactions, enhancing efficiency and selectivity in chemical processes.
Thin Film Deposition
Essential in sol-gel methods for depositing high-quality thin films used in electronics and optics.
Nanotechnology
Facilitates the creation of zirconium-based nanoparticles for applications in advanced material development and research.