C. Bouancheau et al., REACTION OF AMINOCARBENE COMPLEXES OF CHROMIUM WITH ALKYNES .3. NEW INSIGHTS INTO THE MECHANISM OF FORMATION AND REARRANGEMENT OF NITROGEN YLIDES, Organometallics, 13(12), 1994, pp. 4708-4719
The dissymmetrically N-substituted aminocarbene complexes (CO)(5)Cr=C(
R(1))N(R(2))(R(3)) 7 (R(1) = H, R(2) = CH3, R(3) = Ph), 11 (R(1) = R(2
) = CH3, R(3) = Ph), 17 (R(1) = Ph, R(2) = CH3, R(3) = cyclopropyl), 2
2 (R(1) = R(2) = CH3, R(3) = sec-butyl), and 24 (R(1) = Ph, R(2) = CH3
, R(3) = sec-butyl) have been reacted with diphenylacetylene. Whereas
complex 7 only led to the aminofuran complex 8, which could be convert
ed to the air-stable aminofuran 9, complex 11 gave, besides the aminof
uran complex 12, the pyrrolinone 13 and the imine 15 as a result of re
spectively the insertion of the alkyne and CO, followed by the migrati
on of the phenyl group from nitrogen to the gamma-carbon, and the sole
insertion of the alkyne followed by the migration of the phenyl group
from nitrogen to the gamma-carbon. However, 17 gave an intermediate (
arene)tricarbonylchromium nitrogen ylide complex (CO)(3)Cr(C29H23NO) (
18). Upon heating of the sample in benzene, the cyclopropyl group, cis
with respect to Cr(CO)(3) in 18, migrates from nitrogen to the gamma-
carbon atom, to give a pyrrolinone Cr(CO)(3) complex 19 in which the c
yclopropylgroup is trans to Cr(CO)(3). 9, 13, 15, 18, and 19 were full
y characterized by X-ray diffraction studies. Crystal data for 9: C23H
19ON, triclinic, space group P ($) over bar 1, a = 8.861-(1) Angstrom,
b = 19.814(2) Angstrom, c = 10.817(1) Angstrom, alpha = 102.08(1)degr
ees, beta = 94.67(1)degrees, gamma = 105.93(1)degrees, V = 875(5) Angs
trom(3), d(calc) = 1.24 g cm(-3), Z = 2. Data for 13: C24H21ON, orthor
hombic, space group. P2(1)2(1)2(1), a = 9.957(6) Angstrom, b = 9.767(4
) Angstrom, c = 19.244(19) Angstrom, V = 1871(2) Angstrom(3), d(calc)
= 1.20 g cm(-3), Z = 4. Data for 15: C23H21N, monoclinic, space group
P2(1)/c, a = 9.290(2) Angstrom, b = 22.324(3) Angstrom, c = 9.630(1) A
ngstrom, beta = 116.14(1)degrees, V = 1793(13) Angstrom(3), d(calc) =
1.15 g cm(-3), Z = 4. Data for 18: C29H23O4NCr, orthorhombic, space gr
oup P2(1)n, a = 12.763(11) Angstrom, b = 13.854(14> Angstrom, c = 13.5
77(26) Angstrom, V = 2.401(6) Angstrom(3), d(calc) = 1.39 g cm(-3), Z
= 4. Data for 19: C29H23O4NCr, monoclinic, space group P2(1)/alpha, a
= 4.044(5) Angstrom, b = 9.664(2) Angstrom, c = 18.035(3) Angstrom, be
ta = 97.93(2)degrees, V = 2424(7) Angstrom(3) d(calc) = 1.37 g cm(-3),
Z = 4. A rearrangement without CO insertion could also be observed st
arting from complex 23a which gave 25. Finally, 24a,b led, besides to
the benzannulation products 28 and 29, to the pyrrolinones 27a,b resul
ting from the migration of the sec-butyl group; in the case of the opt
ically active 24b, no racemization of the migrating group is observed.
The mechanisms ofthese transformations will be discussed.