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Organofluorine compound : ウィキペディア英語版
Organofluorine chemistry

Organofluorine chemistry describes the chemistry of organofluorine compounds, organic compounds that contain the carbon–fluorine bond. Organofluorine compounds find diverse applications ranging from oil and water repellents to pharmaceuticals, refrigerants and reagents in catalysis. In addition to these applications, some organofluorine compounds are pollutants because of contributions to ozone depletion, global warming, bioaccumulation, and toxicity. The area of organofluorine chemistry often requires special techniques associated with the handling of fluorinating agents.
== The carbon–fluorine bond ==
(詳細はorganohalogens.
# The carbon–fluorine bond is one of the strongest in organic chemistry (an average bond energy around 480 kJ/mol〔Kirsch, Peer ''Modern fluoroorganic chemistry: synthesis, reactivity, applications''. Wiley-VCH, 2004.〕). This is significantly stronger than the bonds of carbon with other halogens (an average bond energy of e.g. C-Cl bond is around 320 kJ/mol〔) and is one of the reasons why fluoroorganic compounds have high thermal and chemical stability.
# The carbon–fluorine bond is relatively short (around 1.4 Å〔).
# The Van der Waals radius of the fluorine substituent is only 1.47 Å,〔 which is shorter than in any other substituent and is close to that of hydrogen (1.2 Å). This, together with the short bond length, is the reason why there is no steric strain in polyfluorinated compounds. This is another reason for their high thermal stability. In addition, the fluorine substituents in polyfluorinated compounds efficiently shield the carbon skeleton from possible attacking reagents. This is another reason for the high chemical stability of polyfluorinated compounds.
# Fluorine has the highest electronegativity of all elements: 3.98.〔 This causes the high dipole moment of C-F bond (1.41 D〔).
# Fluorine has the lowest polarizability of all atoms: 0.56 10−24 cm3.〔 This causes very weak dispersion forces between polyfluorinated molecules and is the reason for the often-observed boiling point reduction on fluorination as well as for the simultaneous hydrophobicity and lipophobicity of polyfluorinated compounds whereas other perhalogenated compounds are more lipophilic.
In comparison to aryl chlorides and bromides, aryl fluorides form Grignard reagents only reluctantly. On the other hand, aryl fluorides, e.g. fluoroanilines and fluorophenols, often undergo nucleophilic substitution efficiently.

抄文引用元・出典: フリー百科事典『 ウィキペディア(Wikipedia)
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