-Halosulfones. II. The Ramberg-Bcklund Rearrangement of

α-Halosulfones. II. The Ramberg-B cklund Rearrangement of α,α-Dichlorosulfones. The Solvolytic Fate of α-Chloroepisulfones. Leo A. Paquette. J. Am...
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Oct. 5 , 1964

RAMBERG-B ACKLUND REARRANGEMENT OF a,a-DICHLOROSULFONES

This material was identical by the usual criteria with an authentic sample of Xb.2' 9,10-Dideuterio-2,7-dirnethylphenanthrene (XIb).-A mixture of 700 mg. (2.29 moles) of I - I I b , 5 ml. of 2 5 5 S a O D in D20, and 5 mi. of dioxane was refluxed with stirring for 3.5 hr. The work-up proceeded as above t o give 425 mg. (90.icIc) of crude product, m . p . 96.5-98". Sublimation and recrystallization from methanal yielded white crystals, m . p . 10%'. .-lnal. Calcd. for C16H12D2: 14.30 atom "( excess D . Found: 14.20 atom yc excess D. 2,7-Dihydro-4',1 "-dirnethyl-3,4-5,6-dibenzothiepin (Vc).A mixture of 25.0 g. (0.068 mole) of 6,6'-dimethyl-2,2'-bis(bromomethyl)bipheny1,2? 48 g. (0.20 mole) of sodium sulfide nonahydrate, 1200 ml. of methanol, and 60 ml. of water was refluxed with stirring for 18 hr. The solvent was evaporated under reduced pressure and t o the residue was added 300 ml. of water. The insoluble gray solid was separated by filtration, washed thoroughly with water, and dried. There was obtained 16.1 g. ( 9 8 X ' ; j of crude sulfide, m . p . 95-98', which after recrystallization from ethanol was obtained a s white prisms, m.p. 98.5-99". (21) T h e author is grateful t o P r o f . R f . S. Fewrnan for t h e authentic sample of X b . (22) E 11 Bergrnann and Z . Pelchowicz, J A m . C h e m . Soc., 76, 2663 (19531.

[COSTRIBUTION FROM

a-Halosulfones.

THE

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Anal. Calcd. for C16H16S: C, 7'9.95; H , 6.71. Found: C , 79.81; H , 6.74. 2-Chloro-2,7- dihydro-4', 1 "- dimethyl-3,4-5,6-dibenzothiepin 1,l-Dioxide (VIIc).--A 7.9-g. (0.0329 mole) sample of Vc was chlorinated and oxidized a s described above to give 7 . 2 5 g. (71cc) of white crystals from ethanol, m . p . 192-196'. Anal. Calcd. for C16Hl5ClO2S: C , 62.63; H , 4.93; S, 10.45. Found: C , 62.71; H , 5.07; S, 1 0 5 9 . Attempted Rarnberg-Backlund Rearrangement of V11c.An 800-mg. sample of VIIc was refluxed with 10 ml. of dioxane and 10 ml. of 25Yc sodium hydroxide solution for 24 hr. The cooled solution was diluted with water and extracted with chloroform. The combined organic layers were washed with water, dried, filtered, and evaporated t o give 800 mg. of recovered I.IIc, m.p. 186-191". Infrared comparisons of starting material and product showed them to be identical. Longer reactions periods ( t o 7 2 h r . ) likewise resulted solely in the isolation of \711c.

Acknowledgment.-The author gratefully acknowledges support of this work in part by Petroleum Research Fund Grant 169G, administered by the American Chemical Society, and in part by a grant awarded through the office of the Vice President for Research, The Ohio State University.

EVANSCHEMISTRY LABORATORY, THEOHIO

STATE

VNIVERSITY, COLUMBUS 10, OHIO]

11. The Ramberg-Backlund Rearrangement of a,a-Dichlorosulfones. The Solvolytic Fate of a-Chloroepisulfones' BY LEO A. PAQUETTE RECEIVED FEBRUARY 29. 1964

Dichlorination and oxidation of dibenzyl sulfide has yielded exclusively a,a-dichlorodibenzyl sulfone DiI 7 I a and \.IIb has given rise to mixtures chlorination and oxidation of the 2,7-dihydro-3,4-5,6-dibenzothiepins of a , a - and a,a'-dichlorosulfones These cases represent the first two examples of the a,a'-dichlorination of sulfides The Kamberg-Backlund rearrangements of the a,a-dichlorosulfones were studied, discussion of the solvolytic fate of the chloroepisulfones formed as intermediates in these reactions is presented

In the previous paper of this series,' the preparation of 2-chloro-2,i-dihydro-3,4-5,6-dibenzothiepin 1,l-dioxides and a study of their rearrangement to phenanthrenes was reported. The present communication is concerned with the preparation and Ramberg-Backlund rearrangement of a ,a-dichlorosulfones. Of especial interest to us was the question of whether such sulfones would be susceptible t o alkali-induced rearrangement, and also the solvolytic fate of the intermediate chloroepisulfones. The only report in the literature to date which bears somewhat on this question is that of Ramberg and Backlund2 in which the reaction of bis( a-chloroethyl) sulfone (I) with aqueous potassium hydroxide was found to give rise to potassium 2-butene-2-sulfonate (111). The formation of I11 can easily be formulated KOH

CHaCHClS02CHCICHI +CHaCH-C

/

\s/ \

CH? KOH

-+

c1

as proceeding in a manner totally analogous to the rearrangement of a - h a l o ~ u l f o n e;s ~ ~ ~ is, S N displacethat ~ ment of either chlorine atom by the other a-sulfonyl carbanion to give the chloroepisulfone 11, which upon attack by hydroxide ion affords 111. Despite the attractiveness of this mechanism, however, several other possibilities can be visualized which are consistent with the results. The ensuing report delineates our efforts to provide evidence for the formation of chloroepisulfone intermediates. Results Addition of 2 equivalents of sulfuryl chloride to a solution of dibenzyl sulfide (IV) in carbon tetrachloride, followed by direct oxidation of the resulting dichlorosulfide, gave the CY, a-dichlorosulfone VI as the only p r o d ~ c t . ~

Q--cH,scH~~

3

IV

0 2

I

I1

CHS CH3CH=C

/ 'SOPK"

111 (1) a-Halosulfones. I. I.. A . P a q u e t t e , J A m Chem S O L . ,86, 1085 (1964) ( 2 ) I>. Ramberg and B. Backlund. Avkiz'. K e m i Mineral. Geoi , 13A, No. 27 ( 1 9 4 0 ) , see also further mention of this reaction b y F. G. Bordwell and G I). Cooper. J . A m . Chrm Soc , 7 3 , 5187 (1951)

(3) N . P. Seurieter and F. G Bordwell, i b i d . . 8 6 , 1209 (lR03). (4) T h e polychlorination of dimethyl sulfide also resulted in all t h e hydrogens of one carbon atom being replaced by chlorine befol-e t h e second methyl group was a t t a c k e d : W . E Truce, G H . Bii-um, and E. T McBee. i b i d . , 74, 3594 (1952).

LEO A . PAQUETTE

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In contrast, dichlorination and oxidation of 2,i-dihydro-3,4-.7,(i-dibenzothiepin (1-1Ia) afforded the a , a ' dichlorosulfone I'IIIa in 2.9% yield and the 0, a-dichlorosulfone I X a in X3.5