- Email: [email protected]
Nucleophilic replacement of a nitro-group in an aromatic compound by chlorine
Tetrahedron Letters No. 32, pp. 2747-2748, 1970.
NuCLEoPHILIC
IWLLCBMBQ
09 A S
Fkinted in Great Britain.
IuAuAuoN4T1ccowamDBTCiiwmHB
P.H.GoRe, 59-p-unur Departmntof
Pergamon Press.
adD.p.C.Horrie
w.3,U.L
~trg,~l~~8i~,~,
(Received in UK 2 June 1970; accepted for publication 11 June 19'70) while displacements of nitro-goapr more umausl
types of replaoemw~te bme
instance of the woleophilic
rkom aotivated aromatio oompounaa are nll reoently been =w=tel+
lQmm,"2
TOdshtor93pO&~iWkp
replaoement ofanaromt3cnitro-groupbyoblori&a
ion: oaQfew
5 examples of this type hare been reoorded. 1,3,5-Triohloro-2,4,64rinitrobensene (A_ 96.9 m2moi’,
illlletbanok206ana300lm;E_4J30aad
respectively)on treatzmt with lithium chloridein aoetom or -1
solutionafforde 1,2,j,5-tetraohloro+6-dinllxobmmw, rydl~coBpama=.p.4241[(~ C, 24.3;H, 0.3; Cl, 45.6;I, 8.9. Caloulatdfor C6041V2C14: C, 23.5;H, 0; Cl, 46.4;I, 9.1s.
LX
in methanol: 208, 3C5 ad 380 1ll;6_ 4,450,233 and 1% m2mo14,
m.p. had been reported ae 636K;7 but idemti~ of the pmduotw
kwwn l-ohloro-3,5-dinitro-2,4,6-tri~bennne,
C24H,804N5C1: Cl, 7.s).
eont%md
reapeatively).
Tim
bynonmion8te*
m-p. 452x (Fauna:Cl, 8.3. mcailateafor
The kinetioa of the roe&ion
in aoetom
were ionwed
epeatrophoto-
metricallyat j8C nm; details are given in the Table. Themactionahaar_keam&iTe
Table.
Kinetic result8 for the reaction of
1,~,w~bhb0-2,4,6-~~~
(0.996mm01dr-3)with Lithiumchloride(1.62rol dm-3)in ACO~OM solutaon.
T
k2
@I
(al&l-'*-',
303.6
1.3 ~003)x109*-'
A
=
0.883
BA
= 53.6+ 3.0 W ml-'
300.6
0.607
ml*
295.5
0.453
289.4
0.293
AS*
= -79 +l Jlc-'nd'
2e4.1
0.168
AC*
= 74.62 4 W ml-'
= 51.12 3.0 w Doi'
k2(2Y8K)= 0.525d&d'
lbarslwpra~nt9~~~ 2747
a-'
l.iDita
2748
No.
8alt&foot, but with a oon8tant initial[UC11 5:1.62 ~1
32
dm-3good reoondorderkinotior
warm obtained. In the triohlorotrinitrobwucne the threerquivalentnitro-group8 oannotb8 ooplanar with the rromtio ring?'2
The 6-complextr8n8ition-atate (I)for th8 reaotionrauldpemt
reliefof rterioorowdingbt
Cl.
Thirwouldrestllt in mor8 ef'feotire oharge-delooalisation intolting the nitro-group8 at C3 and C5,13 and a olowr
Cl Cl 02N5
'4 If ir rpprorohto ooplan8rity of theaenitro-goups.
1 NO2
Cl
L
Cl
therefore.8uggrrted thet the pre8entreaotioninvolve8 a hi&-energyinitialatate,8nd a oompsratirelg &able
a
*O2
energy tran8ition rtate. The remarkablylow motivation may thu8be explained.
(1)
1.
J.F.Runnett, @art. Rev.,l& 1 0956).
D.J.Searr and D.Y.Smith, Chem.Corn.,491 (1966). 2. J.I.G.Cadog&n, 3.
J.I.G.C&dogm, D.J.beu8 end D.Y.Smith, Chem.Corm.,1107 (1968).
4. J.A.Rlixand G.C.&ris, Tetrahedron Lofterr,671 (1969). 5. B.Anderrson and BAaam, Aota Chem.Soar&, 9, 2983 (iy69). 6. C.F.Berxwooni, J. Am. Chem.Soo.,&
129 (1970).
7. w.QTirt,AoLatr Aoad.&o., 2, 5, 8 (1969). 8. C.L.Jrokson and HJ.Carlton,Am. Chem.J., &
360 (19%).
9. G.A.Gol'der, G.S.Rhdano~ and Y.Y.Uman8kii, DOkl.m. and C.Diokin8on, J. PhyS.Chew, & 10. J.R.Eolden
Nauk.S.S.S.R., 2, 311 (1953).
1129 (1967).
R.Destroand Y.Simonetta, Chem. Comm., 331 (1967). 11. c.~.cramrocioli, 12. B.H.N 13.
P.Caveng, P.B.Fi8Oher, R.Heilbronner, A.I.M.iller and H.Zollinder, Relv.Chin.Acts, z, W
14.
md S.C.N,$, J. &em. SOO. (B),582 (1968).
(1967);
~.ueda,N.Sakabe,~.Tanskaand A.Fururaki, Nature, 2&
956 (1967).
NuCLEoPHILIC
IWLLCBMBQ
09 A S
Fkinted in Great Britain.
IuAuAuoN4T1ccowamDBTCiiwmHB
P.H.GoRe, 59-p-unur Departmntof
Pergamon Press.
adD.p.C.Horrie
w.3,U.L
~trg,~l~~8i~,~,
(Received in UK 2 June 1970; accepted for publication 11 June 19'70) while displacements of nitro-goapr more umausl
types of replaoemw~te bme
instance of the woleophilic
rkom aotivated aromatio oompounaa are nll reoently been =w=tel+
lQmm,"2
TOdshtor93pO&~iWkp
replaoement ofanaromt3cnitro-groupbyoblori&a
ion: oaQfew
5 examples of this type hare been reoorded. 1,3,5-Triohloro-2,4,64rinitrobensene (A_ 96.9 m2moi’,
illlletbanok206ana300lm;E_4J30aad
respectively)on treatzmt with lithium chloridein aoetom or -1
solutionafforde 1,2,j,5-tetraohloro+6-dinllxobmmw, rydl~coBpama=.p.4241[(~ C, 24.3;H, 0.3; Cl, 45.6;I, 8.9. Caloulatdfor C6041V2C14: C, 23.5;H, 0; Cl, 46.4;I, 9.1s.
LX
in methanol: 208, 3C5 ad 380 1ll;6_ 4,450,233 and 1% m2mo14,
m.p. had been reported ae 636K;7 but idemti~ of the pmduotw
kwwn l-ohloro-3,5-dinitro-2,4,6-tri~bennne,
C24H,804N5C1: Cl, 7.s).
eont%md
reapeatively).
Tim
bynonmion8te*
m-p. 452x (Fauna:Cl, 8.3. mcailateafor
The kinetioa of the roe&ion
in aoetom
were ionwed
epeatrophoto-
metricallyat j8C nm; details are given in the Table. Themactionahaar_keam&iTe
Table.
Kinetic result8 for the reaction of
1,~,w~bhb0-2,4,6-~~~
(0.996mm01dr-3)with Lithiumchloride(1.62rol dm-3)in ACO~OM solutaon.
T
k2
@I
(al&l-'*-',
303.6
1.3 ~003)x109*-'
A
=
0.883
BA
= 53.6+ 3.0 W ml-'
300.6
0.607
ml*
295.5
0.453
289.4
0.293
AS*
= -79 +l Jlc-'nd'
2e4.1
0.168
AC*
= 74.62 4 W ml-'
= 51.12 3.0 w Doi'
k2(2Y8K)= 0.525d&d'
lbarslwpra~nt9~~~ 2747
a-'
l.iDita
2748
No.
8alt&foot, but with a oon8tant initial[UC11 5:1.62 ~1
32
dm-3good reoondorderkinotior
warm obtained. In the triohlorotrinitrobwucne the threerquivalentnitro-group8 oannotb8 ooplanar with the rromtio ring?'2
The 6-complextr8n8ition-atate (I)for th8 reaotionrauldpemt
reliefof rterioorowdingbt
Cl.
Thirwouldrestllt in mor8 ef'feotire oharge-delooalisation intolting the nitro-group8 at C3 and C5,13 and a olowr
Cl Cl 02N5
'4 If ir rpprorohto ooplan8rity of theaenitro-goups.
1 NO2
Cl
L
Cl
therefore.8uggrrted thet the pre8entreaotioninvolve8 a hi&-energyinitialatate,8nd a oompsratirelg &able
a
*O2
energy tran8ition rtate. The remarkablylow motivation may thu8be explained.
(1)
1.
J.F.Runnett, @art. Rev.,l& 1 0956).
D.J.Searr and D.Y.Smith, Chem.Corn.,491 (1966). 2. J.I.G.Cadog&n, 3.
J.I.G.C&dogm, D.J.beu8 end D.Y.Smith, Chem.Corm.,1107 (1968).
4. J.A.Rlixand G.C.&ris, Tetrahedron Lofterr,671 (1969). 5. B.Anderrson and BAaam, Aota Chem.Soar&, 9, 2983 (iy69). 6. C.F.Berxwooni, J. Am. Chem.Soo.,&
129 (1970).
7. w.QTirt,AoLatr Aoad.&o., 2, 5, 8 (1969). 8. C.L.Jrokson and HJ.Carlton,Am. Chem.J., &
360 (19%).
9. G.A.Gol'der, G.S.Rhdano~ and Y.Y.Uman8kii, DOkl.m. and C.Diokin8on, J. PhyS.Chew, & 10. J.R.Eolden
Nauk.S.S.S.R., 2, 311 (1953).
1129 (1967).
R.Destroand Y.Simonetta, Chem. Comm., 331 (1967). 11. c.~.cramrocioli, 12. B.H.N 13.
P.Caveng, P.B.Fi8Oher, R.Heilbronner, A.I.M.iller and H.Zollinder, Relv.Chin.Acts, z, W
14.
md S.C.N,$, J. &em. SOO. (B),582 (1968).
(1967);
~.ueda,N.Sakabe,~.Tanskaand A.Fururaki, Nature, 2&
956 (1967).