Atomfair Antimony trifluoride SbF3 F3Sb

Description Antimony Trifluoride (SbF3) is a highly reactive inorganic compound widely utilized in industrial and research applications due to its unique fluorinating properties. This white crystalline solid, with the molecular formula F3Sb, exhibits excellent solubility in polar solvents such as water and acids. As a potent Lewis acid, it serves as a key reagent in organic synthesis, catalysis, and the preparation of fluorine-containing compounds. With a CAS number of 7783-56-4, our high-purity Antimony Trifluoride (??99%) is rigorously tested for consistency, ensuring optimal performance in specialized chemical processes. Ideal for researchers and scientists, this product is packaged under controlled conditions to…

Description

Antimony Trifluoride (SbF₃) is a highly reactive inorganic compound widely utilized in industrial and research applications due to its unique fluorinating properties. This white crystalline solid, with the molecular formula F₃Sb, exhibits excellent solubility in polar solvents such as water and acids. As a potent Lewis acid, it serves as a key reagent in organic synthesis, catalysis, and the preparation of fluorine-containing compounds. With a CAS number of 7783-56-4, our high-purity Antimony Trifluoride (??99%) is rigorously tested for consistency, ensuring optimal performance in specialized chemical processes. Ideal for researchers and scientists, this product is packaged under controlled conditions to maintain stability and purity.

CAS No: 7783-56-4
Molecular Formula: F3Sb
Molecular Weight: 178.755
Exact Mass: 177.89902
Monoisotopic Mass: 177.89902
IUPAC Name: trifluorostibane
SMILES: F[Sb](F)F
Synonyms: ANTIMONY TRIFLUORIDE, 7783-56-4, Trifluorostibine, Antimony fluoride, Trifluoroantimony

Application

Antimony Trifluoride is primarily used as a fluorinating agent in organic synthesis, enabling the introduction of fluorine atoms into target molecules. It plays a critical role in the production of fluorinated polymers and specialty chemicals. Additionally, it serves as a catalyst in certain industrial processes, such as the synthesis of refrigerants and flame retardants. Its Lewis acid properties make it valuable in coordination chemistry and material science research.

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