Cycloaddition reaction of tropone with 1,1-dimethyl-2,5-diphenyl-1-silacyclopentadiene

TetnxhedronLetter6 IVo.17, pp 1565 - 1588, 1974.

CYCLOADDITION WITH

REACTION

1,l -DIMETHYL-2,5-DIPHENYL-1

Yutaka

Fujise,

Yasua

Department

Per-n

Hideki

Chemistry,

Sendai

TROPONE

-SILACYCLOPENTADIENE

Chonan,

of

OF

Preee. Printed in &eat Britain.

Sakurai

Tohoku

980,

and ShS

lt6*

University

Japan

(Receivedin J8pBD 5 WIroh 1974; receivedin UK for publication18 Maroh 1974)

Tropone

(I) has been known

to react

C4+21 and Cg+41 (1) cycloadditions, generally

proceed

selectivity

depends

controled group

with

high

largely

I with

respectively,

stereoselectivity,

furane

(5),

dimethylsilylene

C4+21

cycloaddition

acetylenes

In order

to find

II was carried Tropone

under of

II.

m. p.

out

the reaction

atmosphere

preparative

183-183.5’(52%),

imposable

mass spectra

(3),

or 2s

addend

cyclopentadienes

group

the (2c,

course

and olefines

controling

(II) both

(7) and Cztil

these selectivities,

(2).

The

and regioselectivities.

The

C6+43 reaction

3).

being

Modification

termini

(4),

modified

and known

addition

with

peri-

kinetically

by the reactions

(Id)

is another

reactions

of the methylene

as was indicated

spiroC2,4lhepta_4,6_diene

connecting

in C6+41 and

of

3,4-dimethyl-land isobenzo-

butadiene to undergo

with thermal

2,3_dimethylbutadiene

the cycloaddition

reaction

of

a

(8).

I with

the

(9).

(I) was heated

nitrogen The

the factors act

employed,

-silacyclopentadiene

and electropositive with

peri-

4s

1,2,3,4-tetrachloro-5,5-ethylenedioxycyclopentadiene

bulky

silole

to alter

1, I-Dimethyl-2,5-diphenyl-1

(6).

poor

6s,

with

thermodynamically

2,5-dimethyl-3,4-diphenylcyclopentadienone

thio-1 -phenylphosphole

with

conditions

controled

also appears

when heated

but

on the reaction

and the C4+21 reaction

of cyclopentadiene

as an electron-defficient

with

I,1 -dimethyl-2,5_diphenyl-l-silacyclopentadiene

in sealed

TLC

(silica

and the Cm/e 368

tube gel)

impure (M+),

to give resulted minor

a mixture in the

adduct

m/e 262

of two

isolation (IV,

of II

(18%),

amorphous,

19%)

base peak (II+)1

1585

products

of

III

(II) in addition the major (10).

and IV

at 138’

to the recovery adduct

The almost

indicate

for 15 hrs

both

(Ill), super-

to be the

1586

No. 17

,&$hh~~x

,;Gh

jj-!

Me III

1:

1

adducts

I

of

Ultraviolet

and II.

(17230),

255 (15480),

(12970),

284 sh (3000),

284 sh (4060), 292 sh (2100)

1656,

CvKB’ pattern

of these

Of correct

1640,

1250,

compounds

the four structures

possible were

292 sh (2370) f or

IV1

protons,

allows

(shown by the

irradiation

IV

1250,

similar

having

Of

PMR

of

‘7

‘8

‘9

4.34

6.84

4.09

3.53

7.01

5.52

4.21

6.95

3.75

3.65

br.t

d

dd

br.d

Jl,9

Jl,lO

‘1,ll

proton

allylic

ii)

Parameters

-

In both

III

and IV

‘5,6

1,8-

of

the presence

for

IV].

of a

Overall

in

III,

Bll

812

-

6.23

6.43

‘7,8

H7 H,

PMR

‘7,9

adducts),

in the PMR with

spectral

the other

(br.t)

couples

signal

(ddd in

the

vinylic

with Ill

H6

and br.t

in CDCI,) Me

Ph

ex

Me

en

7.15-7.35

-0.42

0.40

%15-7.40

-0.45

0.41

ddd 6.05

ddd

(C&+c2sl

no coupling

(100 MHz

7.15-7.40*6.62

‘6,7

group

observation

?o

ddd

‘1,12

cm-’

compounds,

ddd

5.59

and to that

system as shown by IR spectra

778

with

proton

ddd

dd

255

suggesting

carbonyl

the following

vinylic

signal).

sh

each other.

from

the other

‘6

br. t

1640,

the u,8-unsaturated

85

dd

1664,

with

is the only

of the former

d

(a),

229

229 sh (14890),

to each other

vKBr

?

ddd

similar

for

III,

220 sh (19270),

220 sh (16720),

carbonyl

of H6.

I.

AzrH

an a,8-unsaturated

is also very

identification

III,

CAmax MeoH

contain

H5 which

TABLE

III

cm-’

structures

of

for

compounds

are also quite

deduced for both adducts

i) Irradiation

analysis:

763

of these

C4,3,01-nona-3,7-diene

Both adducts

chromophore.

A

properties

diphenyl-3,4,9,9-tetramethyl-9-silabicyclo stylene

ex

IV

ddd

‘7,11

‘7,12

‘8,9

‘9,lO

‘11,12

III

1.9

-

7.6

1.2

3.0

1.6

8.5

0.7

1.0

7.6

11.0

-

7.6

IV

0.7

6.5

7.5

1.0

3.2

1.1

-

2.1

1.2

7.8

-

11.6

8.5

* Overlaps

with

phenyl signals.

No. 17

1587

TABLE

II.

C4+21 Cycloadditions

Thermal

of Tropone [4+21

X

conditions

.Ph

\

/p*s \

with

Cyclopentadienes

addition references

regioselectivity

peri-

stereo-

selectivity

selectivity

A4

:

A3*

1009

4-6 days

C4+21

endo

1

:

0.6

5

1 loo,

6 days

C4+23

endo

1

:

0.2

4

138’,

15 hrs

C4+21

endo

1

:

0.37

,M=

present

“he

study

:CH*

1270,

>c=o

100°

36 hrs

en&/

C6+41 C4+21

major

exo

:

83

also cf. le

sole

endo

16141

1C

minor

13

prod.

3

C8+21 C4+21 *4 A

in

IV)

appears

in the

to the pammagnetic nuclear

Overhauser

group verifies

field

than

anisotropy effect

signals.

of

iv)

Peri-, TABLE

II,

Although

(br. t in

(8%

coupling

moiety

III

3

refer

in

III

and 3%

in both

in

of the methyl

constants

(J6

adducts

to the following

and br.d

group on the adjacent

in the vicinity

Small

I

in

carbon IV)

iii)

atom.

The

PMR

III

The

attributed

detection

of the

of the endo methyl

group and allows in

structures.

the phenomenon

on irradiation

7) of H6

(11).

IV),

partial

the unequivocal

and IV reveal

parameters

assign-

the endo config-

determined

are I isted

I. stereo-

with

and regioselectivities

those

tropone

previously

tends to offord

completely

absent

in the present

(5).

possible

and probably

One

signal

H,

of the silacyclopentene

in the TABLE

H7 signal

of phenyl

at H,

the presence

ment of methyl uration

low

and A

observed

found

in the reaction

C4+21 adducts reaction

in the present

at higher

of

reaction

I with

the various

temperature

(lc,

as in the cases of spiroC4,21

main factor

for

this

perispecificity

have common features,

is,

6),

as shown

cyclopentadiene the

heptadiene

C6fl

adduct

in

derivatives. was

(4) and the phosphole

as was pointed

out by Tanida

for

ITO. 17

15ee

spiroC4,21 (shown

heptadiene

a severe

in A) of the symmetrically

adducts

predominating

electronic result

(4),

properties

of the

various

calculation

n-n

hindrance

allowed

C6+41

A3 isomers (TABLE

of X.

substituents

to the

over

steric

Both stereo-

of stabilization

studied

II),

It is remarkable

was kept

in all

and regioselectivity energy

so far on cisoid

(2~)

in the

that

observed reaction

have

too small

in these

I

of

transition

regardless

reactions

A4

of the

follow

the

and cyclopentodiene,

effect

state

regioselectivity,

cases examined,

for the

butadiene

bridge

to upset the

suggesting

stabilization

due

interaction.

To whom all

1)

X ond carbon

reaction.

References ’

between

the

An underline

correspondences

is used here

should

to indicate

and Footnotes

be addressed. the mode of addition

of the subject

compound

(tropone

in this

ientence) .

2) z) R.C.

Cookson,

Y.

T.

Okuda

and Y.

Sakan and Y.

Fujise,

Tetrahedron

Fujise,

:1969).

B.V.

e) D. M.

<.N.

Houk

and

Bradby R.B.

-I.

Tanida,

Y.

Kashman

and 0.

-I.

Takeshita,

Y.

-I.

Gilman,

g,

5584

Barton, Ann;

Yano

S.G.

A. J. 4653

and M.

and W.H. Hota

Clardy, A.

Clardy

t.

Org.

Chem.,

9)

If the reaction had .afforded limethyl sililene generator.

J.

J.

C6+43

Org.

Laporterie, and T. J.

Am. 2,

Hatsui, J.

Chem. 1626

2,

191

J.

1351

MS thesis, (1972).

4145

195

Sot.,

Tohoku

Its, K.

University,

(1970). 2,

946

Lett.,

Chem.

335

(1972).

Sot.,

(1973).

86,

1596

(1964).

&,

0

89

Idem, (1%‘85,

B.Resibois Chem. 94,

It&,

(1973).

Dubac,=P.

Barton,

b) S.

c) S.

I,

Chq J.

15 (1966). (1966).

Sakan,

Jopan,

Chem. Am.

K.

Comm.,

39,

Perkin

Sot.

29,

Willis,

d)

Sot.

Sot.,

Chem.

Chem.

Japan,

(1970).

Chem.

Atwell,

(1970).

Sot.

Chem.

Bull.

and C.J.

ond J. J.

Am.

and T.

Nelson

8)

10)

Mori

N.K.

McIntosh,

J.

Tetrahedron,

Cottis

199

2673

Fray,

J.

Morrison,

Chem.

Letters,

Ueyama,

A.

and A.

Bull.

and G. I.

Awerbouch,

Tl971).

J.

Hudec

5, -.

and C.L.

Maruca,

J. Inoue,

Woodward,

Wada,

(1964).

Chim.,

.e :tters, Nitiak

T.

Drake,

6229

Mazerolles Comm., (19 %

and M.

690

(1972).

ibid., TX

and J.C.

Lesbre, T.J.

Brunet,

Tetrahedron -Barton,

J.L.

.

(1971).

adduct,

it was also our intention

to investigate

its possibility

as a

Because of the instability of IV, further IV was obtained only as a mixture with III (III: IV=5:6). The spectral data for IV described in this paper were obtained by subpurification was abandoned. The yields are corrected accordingly. tracting obsorptions due to III from those of the mixture.

11) For coupling Letters, 775

constant (1969).

in the similar

situation,

see 5.

Ita,

K.. Sakan

and Y.

Fujise,

Tetrahedron