cH3 ,c< 'CH - American Chemical Society

(17) D. P. Craig and E. A. Magnusson. J. Chem. SOC., 4895 (1956); D. P.. Craig and T. Thirunamachandran, J. Chem. R~ys. ... (20) R. Breslow, Acc. Chem...
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7162 2072 (1967). (16) For discussions of the hybridization of a-sulfonyl carbanions see (a) ref 10, Chapter II; (b) M. Gresser. "Mechanisms of Reactions of Organic Sulfur Compounds", 4, 29 (1969); (c) J. N. Roitman and D. J. Cram, J. Am. Chem. SOC.,93,2225 (1971). (17) D. P. Craig and E. A. Magnusson. J. Chem. SOC.,4895 (1956); D. P. Craig and T. Thirunamachandran, J. Chem. R~ys.,43,4183 (1965). The conjugation can be described as an overlap of 2p and 3d orbitals to form a 2p-3d P bond; see W. G. Salmond. 0. Rev., Chem. SOC.,3,253 (1968) for a discussion and pictorial representation. (18) Methylenecyclopropane has an increased strain of 13.5 kcal/mol, relative to cyclopr~pane.'~ (19) K. E. Wiberg and R. A. Fenoglio, J. Am. Chem. SOC.,90, 3395 (1968). (20) R. Breslow, Acc. Chem. Res., 8, 393 (1973). (21) We have commented elsewhere on the difficulty of judging carbanion stabilities from kinetic acMlties.** (22) F. G. Bordwell. W. S. Matthews. and N. R . Vanier, J. Am. Chem. SOC.. 97, 442 (1975). (23) National Science Foundation Postdoctoral Fellow, 1971-1972

F. C. Bordwell,* Noel R. Vanier, Walter S . matt hew^^^ Department of Chemistry, Northwestern University Evansron, Illinois 60201 J. B. Hendrickson,* Paul L. Skipper Edison Chemical Laboratory, Brandeis University Waltham, Massachusetts 02154 Received May 1 , 1975

Generation of Dimethylsilylene under Mild Conditions by the Thermolysis of Hexamethylsilirane Sir:

The generation of divalent silicon species, the silylenes, and their chemical reactivity have received much attention in recent years.' Pyrolytic and photolytic processes have served in their production, but these are not wholly satisfactory. The thermolysis reactions require high temperatures, ca. 300°, for substituted 7-silanorb~rnadienes~ and ca. 200-250° for polydimethylsilanes with terminal methoxy substituent^.^ The photolysis of Me(MezSi),Me ( n = 4-8)4 and c - ( M e l ~ S i 6 produces )~ dimethylsilylene at 25-45O, but in such reactions it is possible that the final products obtained will be determined by secondary photoprocesses involving the initial products or by other chemistry involving excited states of the initial products. Clearly, a less strenuous thermal route would be a useful addition to the known procedures of silylene generation. We have found that hexamethylsilirane, 1, whose preparation we reported recently,6 decomposes at around 60-80° to generate dimethylsilylene, eq 1. The initial indication of ,CH,

CHJ,

C\Si/CH,

I

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