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Zirconium Acetate

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Identification
Molecular formula
Zr(CH3COO)4
CAS number
7585-20-8
IUPAC name
zirconium;acetate
State
State

Zirconium acetate can be found as a solid or in an aqueous solution at room temperature. The most common form used in industrial applications is the aqueous solution, which is typically clear and colorless.

Melting point (Celsius)
100.00
Melting point (Kelvin)
373.15
Boiling point (Celsius)
100.00
Boiling point (Kelvin)
373.15
General information
Molecular weight
209.24g/mol
Molar mass
209.2430g/mol
Density
1.1600g/cm3
Appearence

Zirconium acetate typically appears as a white solid or as a clear, colorless solution when dissolved in water or other solvents. The solid form can be crystalline or amorphous, depending on its water content and method of preparation. It has a slight acetic acid smell due to the presence of acetate ions.

Comment on solubility

Solubility of Zirconium Acetate

Zirconium acetate, with the chemical formula Zr(OOCCH3)4, exhibits interesting solubility characteristics that are important for its applications in various fields. Here are some key points regarding its solubility:

  • Solvent Compatibility: Zirconium acetate is generally soluble in organic solvents, particularly in alcohols and acetone. This solubility is attributed to the acetate ligands that can interact favorably with organic molecular structures.
  • Aqueous Solubility: In terms of water solubility, zirconium acetate has limited solubility, which means it does not freely dissolve in water. This property can influence its use in specific formulations where high water solubility is required.
  • Temperature Influence: The solubility of zirconium acetate can be affected by temperature. Generally, higher temperatures can improve the dissolution process, allowing for better integration into various solvents.
  • pH Effects: The solubility may also change with the pH of the solution, with certain pH levels promoting better solubilization due to ionization of the acetate groups.

In summary, the solubility of zirconium acetate is influenced by its solvent, temperature, and pH conditions, making it a versatile compound in applications requiring controlled dissolution and reactivity. Understanding these factors is crucial for maximizing its utility in chemical processes.

Interesting facts

Interesting Facts about Zirconium Acetate

Zirconium acetate is a fascinating compound that combines the properties of zirconium, a transition metal known for its strength and resistance to corrosion, with acetate, a common organic functional group. Here are some captivating aspects of this compound:

  • Role in Catalysis: Zirconium acetate is often utilized as a catalyst in various chemical reactions. Its ability to facilitate reactions in organic chemistry makes it a valuable resource for chemists.
  • Biocompatibility: Zirconium compounds have garnered interest in medical applications due to their biocompatibility. Zirconium acetate is explored for potential applications in drug delivery systems and biomaterials.
  • Textile Industry: This compound can play a role in the textile sector, particularly in the development of synthetic dyes and pigments. Its unique properties can enhance the performance and durability of materials.
  • Environmental Chemistry: Zirconium-based materials, including zirconium acetate, are investigated for their effectiveness in removing heavy metals from waste streams, showcasing its potential in environmental remediation.
  • Industrial Applications: Beyond academic research, zirconium acetate finds roles in various industrial processes, including coatings and ceramics, amplifying its significance in manufacturing.

In the words of a prominent chemist, "Understanding the complexities of transition metal compounds like zirconium acetate can lead to innovations that bridge the gap between chemistry and real-world applications." This highlights the importance of continued research into this versatile compound.

As a chemistry student or scientist, exploring the ways zirconium acetate interacts with different systems can provide valuable insights into both inorganic and organic chemistry, revealing the intricate balance of nature’s elements.

Synonyms
UNII-31A146VHFG