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Oxalyl fluoride

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Identification
Molecular formula
C2O2F2
CAS number
359-73-1
IUPAC name
oxalyl difluoride
State
State

At room temperature, oxalyl fluoride exists as a gas.

Melting point (Celsius)
-63.20
Melting point (Kelvin)
209.95
Boiling point (Celsius)
6.20
Boiling point (Kelvin)
279.35
General information
Molecular weight
94.02g/mol
Molar mass
94.0150g/mol
Density
1.4681g/cm3
Appearence

Oxalyl fluoride is a colorless, corrosive gas with an irritating odor. It may also be encountered in a form as a fuming liquid.

Comment on solubility

Solubility of Oxalyl Difluoride

Oxalyl difluoride, with the chemical formula COF2·C2O2, is an intriguing compound when it comes to solubility. Its solubility characteristics can influence various practical applications, particularly in industrial processes.

Key Points on Solubility:

  • Insolubility in Water: Oxalyl difluoride is typically insoluble in water. This is a common trait for many organic fluorinated compounds.
  • Solubility in Organic Solvents: It may exhibit solubility in certain organic solvents like:
    • Dichloromethane
    • Chloroform
    • Acetone
  • Reactivity Considerations: Due to its chemical structure, oxalyl difluoride can engage in various chemical reactions which may affect solubility in mixtures.

In summary, understanding the solubility of oxalyl difluoride not only emphasizes its utility but also aids in predicting its behavior in different environments. As with many compounds, its interaction with solvents can lead to considerable differences in its physical and chemical properties.

Interesting facts

Interesting Facts about Oxalyl Difluoride

Oxalyl difluoride is a fascinating chemical compound with a distinct structure and unique properties that make it of interest in various fields, particularly in the realm of fluorinated compounds. Here are some noteworthy points about this compound:

  • Reactiveness: Oxalyl difluoride is notably reactive and can be a powerful fluorination agent. Its reactivity is primarily attributed to the presence of fluorine atoms, which significantly enhance its electrophilic character.
  • Applications: This compound finds use in synthetic chemistry, particularly for introducing fluorine into organic molecules. This ability to modify compounds with fluorine is crucial in the development of pharmaceuticals and agrochemicals.
  • Structure: The chemical structure of oxalyl difluoride includes two oxalyl groups attached to a pair of fluoride atoms. This arrangement fosters unique bonding interactions that are of scientific interest.
  • Toxicity: As with many fluorinated compounds, oxalyl difluoride is toxic and requires careful handling. Researchers must follow proper safety protocols when working with it to prevent exposure.
  • Research Potential: With the growing interest in fluorinated compounds for various applications, oxalyl difluoride continues to be a subject of research, potentially leading to new discoveries in both materials science and medicinal chemistry.

Overall, the study of oxalyl difluoride highlights the importance of fluorinated compounds in modern chemistry, showcasing their potential for innovation in both industrial and academic settings. As one quote aptly puts it, "Fluorine is the element of change," and compounds like oxalyl difluoride exemplify this transformative power in chemical synthesis.

Synonyms
OXALYL FLUORIDE
Oxalyl difluoride
Ethanedioyl difluoride
359-40-0
Difluorid kyseliny stavelove
Difluorid kyseliny stavelove [Czech]
EINECS 206-630-4
TL 108
BRN 1743349
2L7RR7QFL9
DTXSID9059888
4-02-00-01853 (Beilstein Handbook Reference)
FCOCOF
UNII-2L7RR7QFL9
DTXCID8039110
HXQOOYKLTKQCRR-UHFFFAOYSA-N
AKOS006228573
DB-255895
NS00029950
A823054
Q7115087