Sulfur diimides are chemical compounds of the formula S(NR)<sub>2</sub>. Structurally, they are the diimine of sulfur dioxide. The parent member, S(NH)<sub>2</sub>, is of only theoretical interest. Other derivatives where R is an organic group are stable and useful reagents.
A particularly stable derivative is di-t-butylsulfurdiimide. It is prepared by reaction of tert-butylamine with sulfur dichloride to give the intermediate "S(N-t-Bu)", which decomposes at 60 ðC to give the diimide.
However, most sulfur diimides are not produced from such elimination reactions. Typically, sulfur diimides arise from treatment of sulfur tetrafluoride with amines, or from transamidation reactions. The latter typically requires amide reactants that are less basic than the products, as with disulfonylsulfodiimide...
...or with N,N-Bis(methoxycarbonyl)sulfur diimide (MeO<sub>2</sub>C-N=S=N-CO<sub>2</sub>Me) from methyl carbamate. Alternatively, the presence of a strong base to absorb the released SO<sub>2</sub> can drive transamidation from sulfinylamines.
These compounds are related to SO<sub>2</sub>. They have planar CâÂÂN=S=NâÂÂC cores with bent CâÂÂN=S and N=S=N geometries, and various combinations of E and Z isomers are observed for the two N=S bonds.
Sulfur diimides are electrophilic. Organolithium reagents attack at the sulfur to give the corresponding nitrogen anion:
The triimido analogues of sulfite can be generated by treating the sulfur diimides with a metal amide:
Sulfur diimides undergo DielsâÂÂAlder reactions with dienes. Fluorine gas oxidizes them to difluorosulfur diimides: