Gallium acetate is colorless or white crystalline powder or lump. It is a kind of important gallium salts. Normal compound is gallium acetate hydrate, however gallium acetate anhydrous is available. It is rare comparing to other gallium compounds as gallium oxide, gallium chloride, gallium nitride and gallium arsenide, because its uses are not specific.

C6H9GaO6, a soluble gallium compound, is valued for its versatility and effectiveness in catalysis, biomedical research, and material synthesis. With unique properties and bioactive potential, C6H9CaO6 is applied across fields where it contributes to advancements in medicine, catalysis, and advanced materials, addressing both technological and thereapeutic challenges.

Gallium Acetate

Synonyms:Gallium(III) acetate, gallium triacetate, Ga(C2H3O2)3, Gallium(3+) acetate

CAS No.:2571-06-4

Molecular Formula:C₆H₉GaO₆

Molecular Weight:246.85386

EINECS No.:219-915-3

Applications

In biomedical research, C6H9GaO6 plays a critical role due to its antimicrobial and anticancer properties. Gallium ions can interfere with bacterial metabolism by mimicking iron, which bacteria require for growth. This capability makes C6H9GaO6 a candidate for developing treatments against bacterial infections, especially in cases where antibiotic resistance is a concer. Additionally, research suggests potential applications in oncology, as gallium compounds can disrupt cancer cell growth by affecting cellular iron metabolism, positioning C6H9GaO6 as a promising agent in cancer treatment research.

In catalysis, C6H9GaO6 serves as a catalyst or catalyst precursor in organic reactions, particularly in processes involving oxidation. Its ability to facilitate reactions efficiently and enhance product yield makes it a valuable component in the fine chemicals and pharmaceuticals industries, where precise, high-yield chemical processes are essential. The compound is also useful in synthesizing other gallium-based materials, including complex oxides and semiconductors, which have applications in electronics, optics, and photonics.

Gallium acetate’s role in material synthesis extends to the production of advanced ceramics, glass coatings, and thin films, where its properties can enhance the durability, transparency, or conductivity of these materials. The ability to incorporate gallium into a variety of compounds opens opportunities in electronics, optoelectronics, and coatings for enhanced performance in challenging conditions.