Table 1
Physical and chemical and spectral data of 2-Z-1-butylpropionates
Comp.
Yield
%
Т
melt
,
о
С
Chemical formula
Elemental analysis, %
NMR- and IR-spectral data
Found
Found
Calculated
Calculated
1
2
3
4
5
6
7
I
75.6
173-175
C
13
H
18
NO
4
SCl
4,5
10,28
NMR : СН
3
(СН)
2
-1.5 ppm CH
2
O, CH
2
N-3.5(
doublets) CH-6.8 ppm (singlet) C
6
H
5
-7
ppm
IR : NH-328.4, C==O -1739 cm
-1
4,38
10,02
II
72,4
165-167
C
18
H
28
N
2
O
4
S
3
6.71
22.12
NMR : СН
3
(СН)
2
-1.5 ppm CH
2
N-2.1, (dou-
blet ), CH
2
S- 2.5 ppm ( singlet ), CH-3.5 (
singlet ), NH-5.6 ppm ( doublet ), C
6
H
5
,
C
6
H
4
-7.2-7.8 ppm
IR : С=О-1728 cm
-1
, NH-3284 cm
-1
6.48
22.23
III
74,2
186-188
C
17
H
25
NO
4
S
3
3.26
24.52
IR : С=О-1739 cm
-1
, NH-3284 cm
-1
,
SO
2
N-1447.7 cm
-1
, 1162.9 cm
-1
3.47
23.83
IV
79.3
166-168
C
14
H
18
N
2
O
4
S
2
8.51
18.32
IR : С=О-1739 cm
-1
, 1638 cm
-1
, NH-3284
cm
-1
, SO
2
N-1485.1152 cm
-1
8.19
18.70
V
68.6
228-230
C
20
H
22
N
3
O
4
S
3
6.70
21.57
NMR : СН
3
(СН)
2
-1.4 ppm CH
2
S- 2.1 m.g, (
doublet ), CH
2
O,-2,5 ppm (doublet), СН-3.7
ppm ( singlet ), NH-5.7 ppm ( doublet),
C
6
H
5
, C
6
H
4
-7.2-7.9 ppm
6.22
21.33
VI
68.3
176-178
C
18
H
20
N
2
O
6
S
7.61
8.45
IR : С=О-1728 cm
-1
, SO
2
N-1450, 1155 cm
-1
, NH - 3389 cm
-1
7.14
8.16
VII
66.8
106-107
C
18
H
29
N
3
O
5
S
–
8.41
IR : С=О-1739 cm
-1
, SO
2
N- 1462, 1147 cm
-1
, NH – 3431, 3368 cm
-1
–
8.02
VIII
67.6
159-161
C
14
H
21
N
3
O
5
S
12.49
9.11
12.25
9.33
IX
69.9
163-165
C
17
H
28
N
2
O
4
S
7.48
8.63
IR : С=О-1710 cm
-1
, NH-3360 cm
-1
,
SO
2
N-1430, 1145 cm
-1
7.89
8.99
5,2
-
X
69.8
168-170
C
20
H
26
N
2
O
4
S
7.39
8.07
IR : С=О-1730 cm
-1
, NH-3376 cm
-1
,
NH-3410 cm
-1
, SO
2
N-1450, 1170 cm
-1
7.18
8.21
XIII
76.7
89-90
C
13
H
19
NO
5
S
4.63
11.06
IR : С=О-1710 cm
-1
, NH-3360 cm
-1
,
SO
2
N-1430, 1145 cm
-1
4.91
11.23
XIV
70.3
178-180
C
13
H
17
NO
5
6.91
–
6.20
–
XV
71.2
148-150
C
22
H
31
N
2
O
4
S
3
5.63
19.51
IR : С=О-1695, С=О-1720 cm
-1
, SO
2
N-
1455, 1140 cm
-1
5.80
19.88
XI
71.2
Т
boil
120-122
о
С /12
=1.517, MR
D
: found.43.1; calculated 42.57
XII
65.4
Т
boil
115-118
о
С /15
=1.6113,
MR
D
: found.59.75 calculated 60.04
KIMYA
ELMLƏRİ
43
REFERENCES
1.
Pattison D.İ., Davies M.J., Asmus K.D. Absolute rate constants for the formation of nitrogen-
centred radicals from chloramines/amides and their reactions with antioxidants // J.Chtv.Soc. Perkin
Trans. 2. 2002. № 8. P. 1461.
2.
Freidline R.Kh., Ribakova N.A., Kravchenko E.A. Effect of oxidizer and medium on on the re-
action of N,N–dichlor-n-chlorbenzenesulfamide with allylchloride // Proceedings of the USSR Aca-
demy of Sciences . 1967. 176. № 2. p.352.
3.
Thu Sanjun, Hon Jianlin, Lin Chen, An Guanghin Pan Ji, Li G-uigen. Catalytic reaction of ami-
nohalogenation of β-nitrostyrenes with N,N–dichlor-n-tolylsulfonamide, leading to dichlonation by
halidamides with regiochemistry opposite to previous systems // Synthesis. 2008. № 10. P. 1570-
1574.
4.
Han Jiaktin, Li Guigen. Azipyridination of alkenes catalyzed by palladium as nitrogen using
N,N– dichlor-n-tolylsulfonamide // Tetrahedron. 2006. No 40. P. 7226-7228.
5.
Minokata S., Yeneda J., Oderaotosh Y., Komatsu M. Unprecedented, promotizing СО
2
ami-
nechlorination of olefins with chloramine // Оrg. Lett. 2006. V.8. No 5. P. 967-369.
6.
Hauger G., Kolsow S., Göttlich D. Copper (1+) catalysts of stereoselective addition of N-chlo-
ramides to double bonds: diastereoselective radical cyclization // J. Org. Chem. 2003. No 11. P.
1848-1854.
7.
Susannah C., O’Brien P., Whitwood A.C. Stereoselective aziridination of cyclic alcohols using
chloramine-T // Org. and Biomol. Chem. 2006. V. 6. No 23. P. 4299-4314.
8.
Zhand C., Yang Cai-Guand, He Chuan Intra-and intermolecular hydroxyamination of deactiva-
ted olefins catalyzed by gold (+1) // J. Amer. Chem. Soc. 2006. V. 128. No 6. P. 1796-1799.
9.
Mammadov S.A., Levshina A.M., Kerimov K.O., Hasanova T.Sh., Adigozelova F.A. Synthesis
of N-β-chloralkylarylsulfamids and study of them as additives to lubricating oils // Petrochemistry.
1988. Т. 28. № 3. P. 396-401.
10.
Zeynalova L.F., Mammadov S.A., Nacafova R.A., Mammadova S.İ., Ladokhina N.P. Clorami-
des of sulfoacids in the synthesis of N-alkylarylsulfamides // Journal “Theoretical and Applied
Sci-
ence”. USA. 2017. V.51. No 7. P. 47-54.
11.
Mammadov S.A., Zeynalova L.F., Mammadova S.İ., Ladokhina N.P., Mahmudova A.A., Baba-
yev S.S. Some features of the monochloramines of sulphoacides with unsaturated compounds //
Az.Chem.J. 2018. № 3. P 80-85.
12.
Liu G.Q., Li Y.M. A new methog for intramolecular chloramination of unfunctionalized olefins
// Synth. and Catal. 2013. 355. No 2. P. 395-405.
13.
Rosenzveig G.I., Rosenzveig I.V., Mirskaya A.I., Levkovskaya G.G. 2-phenylquinoxaline
from 1-functionallysubstituted N-(2-phenyl-2,2-dichlorethyl)arylsulfonamides and ortho-phenyle-
nediamines // J. Org. Chem. 2006. 42. No 3. P. 470-471.
14.
Koritomi M.D.,Veriest G., De Kimpe N. Peruo. Stereocontrolled synthesis of new 3-sulfona-
mide-3,4,5-tetrahydro-1,5-benzthiazolines from 2-(bromomethyl)- or 2-(sulfonyloxymethyl) aziridi-
nes // Org.and Biomol.Chem. 2008. V.6. No 11, P. 183-189.
GƏNC TƏDQİQATÇI, 2020, VI cild, №1
44
Dostları ilə paylaş: |