Chromyl fluoride

Chromyl fluoride
Identifiers
CAS number 7788-96-7
Properties
Molecular formula CrO2F2
Molar mass 112 g/mol
Appearance violet crystals
Melting point

31.6°C

Hazards
Main hazards Oxidant
 Y (verify) (what is: Y/N?)
Except where noted otherwise, data are given for materials in their standard state (at 25 °C, 100 kPa)
Infobox references

Chromyl fluoride is an inorganic compound with the formula CrO2F2. It is a violet-red colored crystalline solid that melts to an orange-red liquid.[1]

Contents

Structure

The liquid and gaseous CrO2F2 have a tetrahedral geometry with C2V symmetry, much like chromyl chloride.[2] Chromyl fluoride crystallizes in the P21/c space group with Z=4. The Cr=O bond lengths are about 157 pm, and the Cr-F bond lengths are 181.7, 186.7, and 209.4pm. Chromium resides in a distorted octahedral position with a coordination number of six.[3] It dimerizes via fluoride bridges in the solid state.

Reactions

Chromyl fluoride is a strong oxidizing agent capable of converting hydrocarbons to ketones and carboxylic acids. It can also be used as a reagent in the preparation of other chromyl compounds.[1] Like some other fluoride compounds, CrO2F2 reacts with glass and quartz, so silicon-free plastics or metals must be used when handling the compound.

History and preparation

Pure chromyl fluoride was first isolated in 1952 as reported by Engelbrecht and Grosse.[4] It was first observed as red vapor in the early 19th century upon heating a mixture of fluorspar (CaF2), chromates, and sulfuric acid. These red vapors were initially thought to be CrF6, although some chemists assumed a CrO2F2 structure analogous to CrO2Cl2.[4] The first moderately successful synthesis of chromyl fluoride was reported by Fredenhagen who examined the reaction of hydrogen fluoride with alkali chromates. A later attempt saw Wartenberg prepared impure CrO2F2 by treating CrO2Cl2 with elemental fluorine. Another attempt was made by Wiechert, who treated HF with dichromate, yielding impure liquid CrO2F2 at -40 °C.

Engelbrecht and Grosse’s synthesis of CrO2F2, and most successive syntheses, involve treating chromium trioxide (CrO3) with a fluorinating agent:

CrO3 + 2 HF → CrO2F2 + H2O

The reaction is reversible, as water will readily hydrolyze CrO2F2 back to CrO3. Other methods include treatment with chlorine fluoride, carbonyl fluoride, or some metal hexafluorides:

CrO3 + 2 ClF → CrO2F2 + Cl2 + O2
CrO3 + COF2 → CrO2F2 + CO2
CrO3 + MF6 → CrO2F2 + MOF4 (M = Mo, W)

The last method involving the fluorides of tungsten and molybdenum are reported by Green and Gard to be very simple and effective routes to large quantities of pure CrO2F2.[1] They reported 100% yield when the reactions were conducted at 120°C. As expected from the relative reactivities of MoF6 and WF6, the MoF6 reaction proceeded more readily.[5]

Reactions

In addition to being to oxidizing hydrocarbons to ketones and carboxylic acids, CrO2F2 participates in a variety of other reactions as reported by Brown, Green, and Gard.[6] Chromyl Fluoride can exchange fluorine atoms with metal oxides.

CrO2F2 + MO → MF2 + CrO3

Chromyl fluoride will also convert the oxides of boron and silicon to the fluorides.

Chromyl fluoride reacts with alkali and alkaline earth metal fluorides in a perfluoroheptane solvent to produce the orange-colored fluorochromates:

CrO2F2 + 2 MF → M2CrO2F4

Chromyl fluoride will react with Lewis acids as well:

CrO2F2 + 2(CF3CO)2O → CrO2(CF3COO)2 + 2CF3COF

Chromyl fluoride forms adducts with weak bases NO, NO2, and SO2.

References

  1. ^ a b c Gard, G. L. "Chromium Difluoride Dioxide (Chromyl Fluoride)" Inorganic Syntheses 1986, Volume 24, p67.
  2. ^ Hobbs, W. E. "Infrared Absorption Spectra of Chromyl Fluoride and Chromyl Chloride" J. Chem. Phys. 28, 1220. doi:10.1063/1.1744372
  3. ^ Supel, J., Abram, U., Hagenbach, A., Seppelt, K., Technetium Fluoride Trioxide, TcO3F, Preparation and Properties Inorg. Chem., 2007, 46 (14), 5591–5595. doi:10.1021/ic070333y
  4. ^ a b Engelbrecht, A., Grosse, A. V. Pure Chromyl Fluoride. J. Am. Chem. Soc. 74, 5262.
  5. ^ Green, P.J., Gard, G.L., Chemistry of Chromyl Fluoride. New Preparative routes to CrO2F2. Inorg. Chem. 16, 1243. doi:10.1021/ic50171a055
  6. ^ Brown, S. D., Green, P.J., Gard, G.L., The Chemistry of Chromyl Fluoride, III: Reactions with Inorganic Systems. J. Fluorine Chem. 5, 203 doi:10.1016/S0022-1139(00)82482-3