Hexafluorothioacetone

Hexafluorothioacetone is an organic perfluoro thione compound with formula CF₃CSCF₃. At standard conditions it is a blue gas.

Production

Hexafluorothioacetone was first produced by Middleton in 1961 by boiling bis-mercury with sulfur.

Properties

Hexafluorothioacetone boils at 8 °C. Below this it is a blue liquid.

Colour

The blue colour is due to absorption in the visible light range with bands at 800–675 nm and 725–400 nm. These bands are due to T₁–S₀ and S₁–S₀ transitions. There is also a strong absorption in ultraviolet around 230-190 nm.

Reactions

Hexafluorothioacetone acts more like a true thiocarbonyl than many other thiocarbonyl compounds, because it is not able to form thioenol compounds, and the sulfur is not in a negative ionized state.
Hexafluorothioacetone is not attacked by water or oxygen at standard conditions as are many other thiocarbonyls.
Bases trigger the formation of a dimer 2,2,4,4-tetrakis--1,3-dithietane. Bases includes amines.
The dimer can be heated to regenerate the hexafluorothioacetone monomer.
The dimer is also produced in a reaction with hexafluoropropene and sulfur with some potassium fluoride.
Hexafluorothioacetone reacts with bisulfite to form a Bunte salt CH₂SSO₂⁻.
Thiols reacting with hexafluorothioacetone yield disulfides or a dithiohemiketal:
With mercaptoacetic acid, instead of a thiohemiketal, water elimination yields a ring shaped molecule called a dithiolanone -CH₂CSC₂S-.
Aqueous hydrogen chloride results in the formation of a dimeric disulfide CH₂SSC₂Cl. Hydrogen bromide with water yields the similar CH₂SSC₂Br. Dry hydrogen iodide does something different and reduces the sulfur making CH₂SH. Wet hydrogen iodide only reduces to a disulfide CH₂SSC₂H. Strong organic acids add water to yield a disulfide compound CH₂SSC₂OH.
Chlorine and bromine add to hexafluorothioacetone to make CCl₂SCl and CBr₂SBr.
With diazomethane hexafluorothioacetone produces 2,2,5,5-tetrakis-l,3-dithiolane, another substituted dithiolane. Diphenyldiazoniethane reacts to form a three membered ring called a thiirane
Trialkylphosphites react to make a trialkoxybismethylenephosphorane ₃P=C₂ and a thiophosphate ₃PS.
Hexafluorothioacetone can act as a ligand on nickel.
Hexafluorothioacetone is highly reactive to alkenes and dienes combining via addition reactions. With butadiene it reacts even as low as -78 °C to yield 2,2-bis--3,6-dihydro-2H-l-thiapyran.