Interesting facts
Interesting Facts about Antimony(III) Triacetate
Antimony(III) triacetate is a fascinating compound that plays an intriguing role in various chemical processes and applications. Recognized for its unique properties, this compound garners attention in both industrial and laboratory settings. Here are some notable facts:
- Coordination Chemistry: Antimony in the +3 oxidation state often participates in coordination complexes. Its ability to form stable complexes makes it a subject of study in coordination chemistry, particularly concerning its interactions with ligands.
- Track Material: Antimony(III) triacetate can act as a precursor to other antimony compounds. Its versatility allows for the development of various antimony-based materials used in electronic and optoelectronic devices.
- Catalytic Properties: This compound has been explored for its potential catalytic properties in organic reactions. Researchers are investigating how it could optimize reaction pathways and improve yields.
- Environmental Considerations: While antimony compounds are valuable in various applications, they must be handled with caution. Environmental impact studies are crucial to understanding the implications of antimony release into ecosystems.
- Historical Significance: Antimony itself has a long history, dating back to ancient times when it was used in cosmetics and medicine. The study of its compounds, like triacetate, traces back to early alchemical traditions.
In summary, antimony(III) triacetate not only showcases the unique chemistry of antimony but also provides a window into its potential applications and significance in modern science. As research continues, this compound may reveal even more about the fascinating world of antimony chemistry.
Synonyms
Antimony triacetate
6923-52-0
Acetic acid, antimony(3+) salt
Octan antimonity
Octan antimonity [Czech]
EINECS 230-043-2
DTXSID3029283
ACETIC ACID, ANTIMONY SALT
DTXCID909283
Acetic acid, trianhydride with antimonic acid (H3-Sb-O3) (8CI,9CI)
230-043-2
Antimony(III) acetate
Acetic acid, trianhydride with antimonic acid (H3SbO3)
F6Z6EKG4QY
Acetic acid, antimony(3+) salt (3:1)
antimony(3+) triacetate
Triacetoxystibine
Tris(acetato)antimony
Antimony(3+) acetate
antimony (III) acetate
antimony(3+);triacetate
UNII-F6Z6EKG4QY
Antimony(III) acetate, 97%
antimony(3+) tris(acetate ion)
Tox21_202771
AKOS015837574
FA59627
NCGC00260318-01
CAS-6923-52-0
DB-220139
NS00113709
D97851
Acetic acid, trianhydride with antimonic(III) acid
Antimonic acid (H3SbO3), trianhydride with acetic acid
Acetic acid, trianhydride with antimonic acid (H3-Sb-O3)
(OC-6-11)-Tris(acetato-|EO,|EO inverted exclamation marka)antimony
109995-35-9
Solubility of Antimony(III) Triacetate
Antimony(III) triacetate, represented by the formula Sb(C₂H₃O₂)₃, is a chemical compound that exhibits notable solubility properties. Understanding its solubility can be crucial for various applications in chemical synthesis and analytical chemistry.
Key Insights on Solubility:
In conclusion, while antimony(III) triacetate demonstrates variable solubility, its solubility profile is notably more favorable in organic solvents compared to aqueous environments. This characteristic is essential for scientists working with this compound to consider in practical applications.