Ortho Esters, Imidic Esters and Amidines. VIII. Thermal and Acid

VIII. Thermal and Acid-catalyzed Rearrangements of Allylic N-Phenylformimidates. Royston M. Roberts, and Fahad Ali Hussein. J. Am. Chem. Soc. , 1960, ...
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KOYSTON AI. ROBERTS AND FAHAD ALI HUSSEIN

1930

[CONTRIBUTION FROM

THE

DEPARTMENT O F CHEMISTRY, THEUNIVERSITY O F

Vol. s2 TEXAS]

Ortho Esters, Imidic Esters and Amidines. VIII. Thermal and Acid-catalyzed Rearrangements of Allylic N-Phenylformimidates BY

ROYSTON 31. ROBERTS AND

F A H A D ALI

HUSSEIN

RECEIVED AUGUST3, 1959 Thermal rearrangement of a number of allylic N-phenylformimidates resulted in high yields of E-allylic formanilides. When the allylic group was unsymmetrically substituted, inversion of the allylic group accompanied its migration I n the presence of catalytic amounts of sulfuric acid, the allylic N-phenylformimidates underwent rapid reaction a t lower temperatures. The rearranged products were obtained in lower yields; unsymmetrically substituted esters gave mixtures of allylic isomers. Approximately the same mixture of isomers was obtained from a- and y-methylallyl N-phenylformimidate. Decomposition into unsubstituted formanilide and 1.3-butadiene accompanied the rearrangement of these esters in the presence of acid. Carbonium ions or ion pairs are probable as intermediates in the acid-catalyzed reactions, whereas the thermal rearrangements must involve pseudo-cyclic transition states.

At high temperatures, aryl N-phenylbenzimidates (Ia) undergo rearrangement to N-arylbenzanilides (IIa) by an intramolecular mechanism.lJ The corresponding alkyl esters are much more resistant to thermal rearrangement, but in the presence of strong acids, alkyl N-phenylformimidates (Ib) undergo rearrangement to N-alkylformanilides (IIb) a t much lower temperatures by a mechanism which is not strictly i n t r a m ~ l e c u l a r . ~Allylic N-phenylbenzimidates (IIIa) undergo thermal rearrangement (210-215") to N-allylic benzanilides (IVa) by an intramolecular mechanism which must be analogous to the ortho-Claisen rearrangement, since the allylic group becomes inverted in the course of the rearrangen~ent.~ CaHaX=C-R'

I

+CsHaX-C-R' I

ll

R

OR

O

I I1 a, R = Ar; R' = C6Hs b, R = Me, Et, &Am; R ' = H R

-+

CsHs--N=C-R

I

O-CH-CH=CH

I11

I

A

I

I

CeH5-S-k=0

I

B-CH-CH=CH-A

B

IV

a, R = CaHb b,R = H A, B = H or CHI

The purpose of the present work was twofold: first, to determine if the easily acquired allylic Nphenylformimidates (IIIb)h behave like the corresponding benzimidates on pyrolysis and, secondly, to examine the effect of strong acid on the course of the rearrangement of allylic N-phenylformimidates. Experimental6 Y-Methylallyl and p,y-dimethylallyl alcohols were prepared by reduction of the corresponding aldehydes with lithium aluminum hydride.' a-Methylallyl alcohol was pre(1) A. W. Chapman, J. Chem. SOC.1743 (1927), and preceding papers. ( 2 ) K. B. Wiberg and B. I. Rowland, T H I S J O U R N ~ L , 77, 2205 (1955). ( 3 ) R.hI. Roberts a!id 1'. J. Vogt. ibid , 78, 4 7 i 6 ( I X f i ) . ( 4 ) 0. h l u m m a n d F.Moller. B e r . , ?'OB,2214 (19n7). ( 5 ) I