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Iron(III) fluoride

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Iron(III) fluoride
Names
Other names iron trifluoride, ferric fluoride
Identifiers
CAS Number
3D model (JSmol)
ChemSpider
ECHA InfoCard 100.029.093 Edit this at Wikidata
PubChem CID
RTECS number
  • NO6865000
UNII
CompTox Dashboard (EPA)
InChI
  • InChI=1S/3FH.Fe/h3*1H;/q;;;+3/p-3Key: SHXXPRJOPFJRHA-UHFFFAOYSA-K
  • InChI=1/3FH.Fe/h3*1H;/q;;;+3/p-3Key: SHXXPRJOPFJRHA-DFZHHIFOAS
SMILES
  • F(F)F
Properties
Chemical formula FeF3
Molar mass 112.840 g/mol (anhydrous)
166.89 g/mol (trihydrate)
Appearance pale green crystals
Density 3.87 g/cm (anhydrous)
2.3 g/cm (trihydrate)
Melting point > 1,000 °C (1,830 °F; 1,270 K)
Solubility in water slightly soluble (anhydrous)
49.5 g/100 mL (trihydrate)
Solubility negligible in alcohol, ether, benzene
Magnetic susceptibility (χ) +13,760·10 cm/mol
Structure
Crystal structure Rhombohedral, hR24
Space group R-3c, No. 167
Hazards
Occupational safety and health (OHS/OSH):
Main hazards Corrosive
GHS labelling:
Pictograms GHS05: Corrosive GHS07: Exclamation mark
Signal word Danger
Hazard statements H302, H312, H314, H332
Precautionary statements P260, P301+P330+P331, P303+P361+P353, P305+P351+P338, P405, P501
Safety data sheet (SDS) External SDS
Related compounds
Other anions Iron(III) oxide, Iron(III) chloride
Other cations Manganese(III) fluoride, Cobalt(III) fluoride, Ruthenium(III) fluoride
Related compounds Iron(II) fluoride
Except where otherwise noted, data are given for materials in their standard state (at 25 °C , 100 kPa). ☒verify (what is  ?) Infobox references
Chemical compound

Iron(III) fluoride, also known as ferric fluoride, are inorganic compounds with the formula FeF3(H2O)x where x = 0 or 3. They are mainly of interest by researchers, unlike the related iron(III) chloride. Anhydrous iron(III) fluoride is white, whereas the hydrated forms are light pink.

Chemical and physical properties

Iron(III) fluoride is a thermally robust, antiferromagnetic solid consisting of high spin Fe(III) centers, which is consistent with the pale colors of all forms of this material. Both anhydrous iron(III) fluoride as well as its hydrates are hygroscopic.

Structure

The anhydrous form adopts a simple structure with octahedral Fe(III)F6 centres interconnected by linear Fe-F-Fe linkages. In the language of crystallography, the crystals are classified as rhombohedral with an R-3c space group. The structural motif is similar to that seen in ReO3. Although the solid is nonvolatile, it evaporates at high temperatures, the gas at 987  °C consists of FeF3, a planar molecule of D3h symmetry with three equal Fe-F bonds, each of length 176.3 pm. At very high temperatures, it decomposes to give FeF2 and F2.

Two crystalline forms—or more technically, polymorphs—of FeF3·3H2O are known, the α and β forms. These are prepared by evaporation of an HF solution containing Fe at room temperature (α form) and above 50 °C (β form). The space group of the β form is P4/m, and the α form maintains a P4/m space group with a J6 substructure. The solid α form is unstable and converts to the β form within days. The two forms are distinguished by their difference in quadrupole splitting from their Mössbauer spectra.

Preparation, occurrence, reactions

Anhydrous iron(III) fluoride is prepared by treating virtually any anhydrous iron compound with fluorine. More practically and like most metal fluorides, it is prepared by treating the corresponding chloride with hydrogen fluoride:

FeCl3 + 3 HF → FeF3 + 3 HCl

It also forms as a passivating film upon contact between iron (and steel) and hydrogen fluoride. The hydrates crystallize from aqueous hydrofluoric acid.

The material is a fluoride acceptor. With xenon hexafluoride it forms .

Pure FeF3 is not yet known among minerals. However, hydrated form is known as the very rare fumarolic mineral topsøeite. Generally a trihydrate, its chemistry is slightly more complex: FeF4·H2O.

Applications

The primary commercial use of iron(III) fluoride in the production of ceramics.

Some cross coupling reaction are catalyzed by ferric fluoride-based compounds. Specifically the coupling of biaryl compounds are catalyzed by hydrated iron(II) fluoride complexes of N-heterocyclic carbene ligands. Other metal fluorides also catalyse similar reactions. Iron(III) fluoride has also been shown to catalyze chemoselective addition of cyanide to aldehydes to give the cyanohydrins.

Safety

The anhydrous material is a powerful dehydrating agent. The formation of ferric fluoride may have been responsible for the explosion of a cylinder of hydrogen fluoride gas.

References

  1. ^ "Iron(III) Fluoride". American Elements. Retrieved November 5, 2018.
  2. Housecroft, Catherine E.; Sharpe, Alan G. (2008) Inorganic Chemistry (3rd ed.), Pearson: Prentice Hall. ISBN 978-0-13-175553-6.
  3. Wollan, E. O.; Child, H. R.; Koehler, W. C.; Wilkinson. M. K. (November 1958). "Antiferromagnetic properties of the iron group trifluorides". Physical Review. 112 (4): 1132–1136. Bibcode:1958PhRv..112.1132W. doi:10.1103/PhysRev.112.1132.
  4. ^ Greenwood, Norman N.; Earnshaw, Alan (1997). Chemistry of the Elements (2nd ed.). Butterworth-Heinemann. ISBN 978-0-08-037941-8.
  5. Hargittai, M.; Kolonits, M.; Tremmel, J.; Fourquet. J.; Ferey, G. (January 1990). "The molecular geometry of iron trifluoride from electron diffraction and a reinvestigation of aluminum trifluoride". Structural Chemistry. 1 (1): 75–78. doi:10.1007/BF00675786. S2CID 96178006.
  6. ^ Karraker, D. G.; Smith, P. K. (March 1992). "α- and β-FeF3•3H2O Revisited: Crystal Structure and Fe Mössbauer Spectra". Inorganic Chemistry. 31 (6): 1118–1120. doi:10.1021/ic00032a042.
  7. Handbook of Preparative Inorganic Chemistry, 2nd Ed. Edited by G. Brauer, Academic Press, 1963, NY. Vol. 1. p. 266-7.
  8. J. Aigueperse, P. Mollard, D. Devilliers, M. Chemla, R. Faron, R. Romano, J. P. Cuer, "Fluorine Compounds, Inorganic" in Ullmann's Encyclopedia of Industrial Chemistry, Wiley-VCH, Weinheim, 2005.doi:10.1002/14356007.a11_307
  9. "Topsøeite".
  10. "List of Minerals". 21 March 2011.
  11. "Ferric Fluoride." CAMEO Chemicals. National Oceanic and Atmospheric Administration. Web. 7 Apr. 2010. <http://cameochemicals.noaa.gov/chemical/3468>
  12. Hatakeyama, T.; Nakamura M. (July 2007). "Iron-Catalyzed Selective Biaryl Coupling: Remarkable Suppression of Homocoupling by the Fluoride Anion". Journal of the American Chemical Society. 129 (32): 9844–9845. doi:10.1021/ja073084l. PMID 17658810.
  13. Hatakeyama, T.; Hashimoto, S.; Ishizuka, K.; Nakamura, M. (July 2009). "Highly Selective Biaryl Cross-Coupling Reactions between Aryl Halides and Aryl Grignard Reagents: A New Catalyst Combination of N-Heterocyclic Carbenes and Iron, Cobalt, and Nickel Fluorides". Journal of the American Chemical Society. 131 (33): 9844–9845. doi:10.1021/ja9039289. PMID 19639999.
  14. Bandgar, B. T.; Kamble, V. T. (July 2001). "Organic Reactions in aqueous medium: FeF3 catalyzed chemoselective addition of cyanotrimethylsilane to aldehydes". Green Chemistry. 3 (5): 265. doi:10.1039/b106872p.
  15. "A recent explosion of a lecture-size cylinder of hydrogen fluoride ... has renewed concerns that compressed gas cylinders can be especially dangerous" (PDF). University of California San Francisco. Archived from the original (PDF) on 2006-09-01.

External links

Iron compounds
Fe(−II)
Fe(0)
Fe(I)
Organoiron(I) compounds
  • (C5H5FeCO)2(CO)2
  • Fe(0,II)
    Fe(II)
    Organoiron(II) compounds
    Fe(0,III)
    Fe(II,III)
    Fe(III)
    Organoiron(III) compounds
    Fe(IV)
    Fe(VI)
    Purported
    sort
    Fluorine compounds
    Salts and covalent derivatives of the fluoride ion
    HF ?HeF2
    LiF BeF2 BF
    BF3
    B2F4
    +BO3
    CF4
    CxFy
    +CO3
    NF3
    FN3
    N2F2
    NF
    N2F4
    NF2
    ?NF5
    OF2
    O2F2
    OF
    O3F2
    O4F2
    ?OF4
    F2 Ne
    NaF MgF2 AlF
    AlF3
    SiF4 P2F4
    PF3
    PF5
    S2F2
    SF2
    S2F4
    SF3
    SF4
    S2F10
    SF6
    +SO4
    ClF
    ClF3
    ClF5
    ?ArF2
    ?ArF4
    KF CaF
    CaF2
    ScF3 TiF2
    TiF3
    TiF4
    VF2
    VF3
    VF4
    VF5
    CrF2
    CrF3
    CrF4
    CrF5
    ?CrF6
    MnF2
    MnF3
    MnF4
    ?MnF5
    FeF2
    FeF3
    FeF4
    CoF2
    CoF3
    CoF4
    NiF2
    NiF3
    NiF4
    CuF
    CuF2
    ?CuF3
    ZnF2 GaF2
    GaF3
    GeF2
    GeF4
    AsF3
    AsF5
    Se2F2
    SeF4
    SeF6
    +SeO3
    BrF
    BrF3
    BrF5
    KrF2
    ?KrF4
    ?KrF6
    RbF SrF
    SrF2
    YF3 ZrF2
    ZrF3
    ZrF4
    NbF4
    NbF5
    MoF4
    MoF5
    MoF6
    TcF4
    TcF
    5

    TcF6
    RuF3
    RuF
    4

    RuF5
    RuF6
    RhF3
    RhF4
    RhF5
    RhF6
    PdF2
    Pd
    PdF4
    ?PdF6
    Ag2F
    AgF
    AgF2
    AgF3
    CdF2 InF
    InF3
    SnF2
    SnF4
    SbF3
    SbF5
    TeF4
    ?Te2F10
    TeF6
    +TeO3
    IF
    IF3
    IF5
    IF7
    +IO3
    XeF2
    XeF4
    XeF6
    ?XeF8
    CsF BaF2   LuF3 HfF4 TaF5 WF4
    WF5
    WF6
    ReF4
    ReF5
    ReF6
    ReF7
    OsF4
    OsF5
    OsF6
    ?OsF
    7

    ?OsF
    8
    IrF2
    IrF3
    IrF4
    IrF5
    IrF6
    PtF2
    Pt
    PtF4
    PtF5
    PtF6
    AuF
    AuF3
    Au2F10
    ?AuF6
    AuF5•F2
    Hg2F2
    HgF2
    ?HgF4
    TlF
    TlF3
    PbF2
    PbF4
    BiF3
    BiF5
    ?PoF2
    PoF4
    PoF6
    AtF
    ?AtF3
    ?AtF5
    RnF2
    ?RnF
    4

    ?RnF
    6
    FrF RaF2   LrF3 Rf Db Sg Bh Hs Mt Ds Rg Cn Nh Fl Mc Lv Ts Og
    LaF3 CeF3
    CeF4
    PrF3
    PrF4
    NdF2
    NdF3
    NdF4
    PmF3 SmF2
    SmF3
    EuF2
    EuF3
    GdF3 TbF3
    TbF4
    DyF2
    DyF3
    DyF4
    HoF3 ErF3 TmF2
    TmF3
    YbF2
    YbF3
    AcF3 ThF3
    ThF4
    PaF4
    PaF5
    UF3
    UF4
    UF5
    UF6
    NpF3
    NpF4
    NpF5
    NpF6
    PuF3
    PuF4
    PuF5
    PuF6
    AmF2
    AmF3
    AmF4
    ?AmF6
    CmF3
    CmF4
     ?CmF6
    BkF3
    BkF
    4
    CfF3
    CfF4
    EsF3
    EsF4
    ?EsF6
    Fm Md No
    PF−6, AsF−6, SbF−6 compounds
    AlF−6 compounds
    chlorides, bromides, iodides
    and pseudohalogenides
    SiF2−6, GeF2−6 compounds
    Oxyfluorides
    Organofluorides
    with transition metal,
    lanthanide, actinide, ammonium
    nitric acids
    bifluorides
    thionyl, phosphoryl,
    and iodosyl
    Chemical formulas
    Categories: