REACTIONS OF ORGANOTIN COMPOUNDS: I. THE STABILITY OF DIMETHYLTIN DIHYDRIDE, AND ADDITIONS TO SOME FLUORO-OLEFINS

Abstract

The effect of heat and ultraviolet irradiation on dimethyltin dihydride is reported. At 120°, the major decomposition products are (CH₃)₃SnH, Sn, and H₂, with a small amount of (CH₃)₆Sn₂. At 130° under ultraviolet light, decomposition is much more rapid giving (CH₃)₃SnH, Sn, and H₂, and an appreciable quantity of (CH₃) ₄Sn. If the dihydride is maintained under these conditions for a longer period (40 hours), (CH₃)₆Sn₂ is formed in place of (CH₃)₃SnH, and other products are (CH₃)₄Sn, Sn, and H₂. Negligible decomposition occurs at 25° even under irradiation.The ready addition of C₂F₄ to (CH₃)₂SnH₂ gives the first reported mono-addition product of an organotin dihydride, (CH₃)₂SnH(C₂F₄H), as well as (CH₃)₂Sn(C₂F₄H)₂. Physical and chemical properties of these compounds are described. The additions of (CH₃)₂SnH₂ to CF₂CFH, CF₂CH₂, and CF₂CFBr are reported and the results interpreted in terms of the formation of unstable mono-addition products, (CH₃)₂SnH(C₂F_nX_mH_p). Surprisingly, these species decompose through the exchange of halogen and hydrogen between (CH₃)₂SnH₂ and the olefin. Thus, usual products from the reaction of (CH₃)₂SnH₂ with CF₂CFBr are (CH₃)₂SnBr₂ and CF₂CFH, with some (CH₃)₃SnBr.