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Halocarbon® TFAA
Halocarbon® TFAA is a reactive trifluoroacetic anhydride recommended for the synthesis of agricultural and pharmaceutical molecules. It is available as a colorless liquid with a molecular weight of 210.02 and a boiling point of 40°C.
Appearance: Liquid Color: Colorless Odor: Vinegarlike Molecular weight: 210.02 Melting point, °C: -65 Boiling point, °C: 40 Vapor pressure, psi at 20°C: 6 Density @ 20°C, g/mL: 1.48 Primary Chemistry:
Halocarbon® TFAA is a reactive trifluoroacetic anhydride recommended for the synthesis of agricultural and pharmaceutical molecules.
Halocarbon® TFAA is a high-quality fluorinated analog of acetic anhydride widely used in advanced organic synthesis, pharmaceutical manufacturing, and specialty chemical production. Containing trifluoroacetic anhydride, TFAA serves as a highly effective reagent for introducing trifluoromethyl groups into organic compounds during synthesis. Due to its reactive chemistry, Halocarbon® TFAA reacts with a wide range of substrates, including alcohols, amines, and phenols, making it especially suitable for chromatographic purifications in the biochemistry and biopharmaceutical industries, as well as for condensation processes. As a high-purity compound, Halocarbon® TFAA can also be used in electronic applications, such as semiconductor chamber cleaning.
Specifications
Appearance: Liquid Color: Colorless Odor: Vinegarlike Molecular weight: 210.02 Melting point, °C: -65 Boiling point, °C: 40 Vapor pressure, psi at 20°C: 6 Density @ 20°C, g/mL: 1.48 Primary Chemistry:
Halocarbon® TFAA is a reactive trifluoroacetic anhydride recommended for the synthesis of agricultural and pharmaceutical molecules.
Features & Benefits
Trifluoroacetic anhydride
High purity
Smoother reaction
Volatile
Less decomposition
Excellent solvency
Low boiling point
High dielectric constant
Strong acidity
Problems Solved
Oxidization or hydrolysis of fluids from reactive chemistries Thermal stress and fluid degradation in high-temperature conditions Reduced operational efficiency from the chemical breakdown of fluids
Applications
Electronic applications Semiconductor chamber cleaning Solvent for chromatography Production of agricultural and pharmaceutical molecules Organic synthesis Peptide or protein synthesis Esterification and transesterification promoter