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Catalytic addition of secondary amines to ethylene (Contribution No. 1720)
1971. Pergamon Press.
Tetrahedron Letters Co.:, pp. 429-430,
CATALYTIC
Central Research
of
numerous
ADDITION OF SECONDARY AMINES TO ETHYLENE (Contribution No. 1720)
D. R. Coulson Department, Experimental Station, E. I. du Pont de Nemours and Company, Inc., Wilmington, Delaware 19898
(Received in USA
Although
frinted i.li (Great Britain.
29 September 1970; received in UK for publication 30 December 1470)
the catalytic
.
investigations,
I
addition of amines to olefins has been the subject
no additions homogeneously
We now wish to report that various compounds
metal compounds have been reported. of rhodium or iridium effectively amines to ethylene
catalyzed by transition
catalyze the addition of secondary
(eq. 1).
R1
R2 R1\
\,/
+
CH2=CH2
r CH2CH3 12 R,R
For example, a mixture rhodium trichloride
trihydrate
= alkyl
(17 g., 200 mmole),
(0.51 g., 2 mmole),
ethylene
afforded
state of the rhodium complex appeared to be immaterial,
effective.
(65% yield)
in Table I.
In all cases, the liquid phase remained homogeneous.
using the Rh(1) complex,
Other complexes
14.6 g.
(25 ml.)
The results obtained with other amines under similar
are described
were obtained
(9 g., 300 mole),
and tetrahydrofuran
to 180.C. for 3 hr. in an 80-cc autoclave
of N-ethylpiperidine. conditions
of piperidine
iR2
--3
H
when heated
aliphatic
The initial valence
since equally good results
CL-dichlorotetraethylene-dirhodium(I).
such as Rh13-3H20,
Rh(N0 ) and IrC13'3H20 also proved to be 3 3' No reaction was noted in the absence of the metal ccmplexes.
The reaction
is apparently
very sensitive
to the nature of the amine.
The first three amines in Table I gave a wide range of yields although they are of similar basicity.
Possibly
steric effects are operating here, since yields
tend to decrease with increasing basicity
(or nucleophilicity)
much less reactive
steric bulk around the nitrogen.
However,
does appear to be a factor, since morpholine
than piperidine. 429
is
No.5
430
Table Ia PRac
% Yield of N-Ethylamine
Amine
10.73
54
Dimethylamine
10.49
4
Diethylamine
ca. 10.5
3
n-Butylethylamine
11.27
Pyrrolidine
3Sb
Morpholine
<2
8.33
Piperidine
70
11.12
'Mole ratios; Amine:Ethylene:RhC13'3H20
= 35O:lOO:l;
Temp. = 200.:
Time = 3 hr.: Solvent = tetrahydrofuran. b
Appreciable
%andbook
side reactions
of Chemistry
In preliminary with piperidine be independent
% Physics, 49th edition, p. D-87, The Chemical Rubber Co.
studies of the kinetic order of the reaction of ethylene
catalyzed by rhodium trichloride, of the piperidine
rhodium trichloride. difficulties
noted.
and first order with respect to
The order in ethylene was not established because
in accurately measuring
was also shown to be irreversible detection
concentration
the reaction rate was found to
the amount of ethylene consumed.
under the reaction conditions
of The reaction
(limit of
= 0.1% reaction).
In a remarkable be essentially
display of specificity,
homologs
of ethylene were shown to
Also, primary amines or ammonia were unreactive.
unreactive.
In
the case of ammonia and, possibly, certain primary smines, thermodynamic la considerations suggest that detectable quantities of adducts may not be formed under our reaction conditions. ACENDWLEDGMENT Helpful
SUggeStiOnS
are gratefully
from Drs. R. V. Lindsey, Jr. and Chadwick A. Tolman
acknowledged. REFERENCES
(1) (a) L. Uhlmann, Wiss. 2. Tech. Hochsch.
Chem. ieuna-Merseburq,
(b) B. Howk et al., J. Am. Chem. Sot., 12, (c) British
Patent 756,538
(d) U.S. Patent 2,750,417
(1956). (1956).
(e) E. W. Stern and 14. L. Spector, (f) U.S. Patent 3,412,158
2, 263
1899 (1954).
(1968).
Proc. Cbem. Sot., 322
(1961).
(1963).
Tetrahedron Letters Co.:, pp. 429-430,
CATALYTIC
Central Research
of
numerous
ADDITION OF SECONDARY AMINES TO ETHYLENE (Contribution No. 1720)
D. R. Coulson Department, Experimental Station, E. I. du Pont de Nemours and Company, Inc., Wilmington, Delaware 19898
(Received in USA
Although
frinted i.li (Great Britain.
29 September 1970; received in UK for publication 30 December 1470)
the catalytic
.
investigations,
I
addition of amines to olefins has been the subject
no additions homogeneously
We now wish to report that various compounds
metal compounds have been reported. of rhodium or iridium effectively amines to ethylene
catalyzed by transition
catalyze the addition of secondary
(eq. 1).
R1
R2 R1\
\,/
+
CH2=CH2
r CH2CH3 12 R,R
For example, a mixture rhodium trichloride
trihydrate
= alkyl
(17 g., 200 mmole),
(0.51 g., 2 mmole),
ethylene
afforded
state of the rhodium complex appeared to be immaterial,
effective.
(65% yield)
in Table I.
In all cases, the liquid phase remained homogeneous.
using the Rh(1) complex,
Other complexes
14.6 g.
(25 ml.)
The results obtained with other amines under similar
are described
were obtained
(9 g., 300 mole),
and tetrahydrofuran
to 180.C. for 3 hr. in an 80-cc autoclave
of N-ethylpiperidine. conditions
of piperidine
iR2
--3
H
when heated
aliphatic
The initial valence
since equally good results
CL-dichlorotetraethylene-dirhodium(I).
such as Rh13-3H20,
Rh(N0 ) and IrC13'3H20 also proved to be 3 3' No reaction was noted in the absence of the metal ccmplexes.
The reaction
is apparently
very sensitive
to the nature of the amine.
The first three amines in Table I gave a wide range of yields although they are of similar basicity.
Possibly
steric effects are operating here, since yields
tend to decrease with increasing basicity
(or nucleophilicity)
much less reactive
steric bulk around the nitrogen.
However,
does appear to be a factor, since morpholine
than piperidine. 429
is
No.5
430
Table Ia PRac
% Yield of N-Ethylamine
Amine
10.73
54
Dimethylamine
10.49
4
Diethylamine
ca. 10.5
3
n-Butylethylamine
11.27
Pyrrolidine
3Sb
Morpholine
<2
8.33
Piperidine
70
11.12
'Mole ratios; Amine:Ethylene:RhC13'3H20
= 35O:lOO:l;
Temp. = 200.:
Time = 3 hr.: Solvent = tetrahydrofuran. b
Appreciable
%andbook
side reactions
of Chemistry
In preliminary with piperidine be independent
% Physics, 49th edition, p. D-87, The Chemical Rubber Co.
studies of the kinetic order of the reaction of ethylene
catalyzed by rhodium trichloride, of the piperidine
rhodium trichloride. difficulties
noted.
and first order with respect to
The order in ethylene was not established because
in accurately measuring
was also shown to be irreversible detection
concentration
the reaction rate was found to
the amount of ethylene consumed.
under the reaction conditions
of The reaction
(limit of
= 0.1% reaction).
In a remarkable be essentially
display of specificity,
homologs
of ethylene were shown to
Also, primary amines or ammonia were unreactive.
unreactive.
In
the case of ammonia and, possibly, certain primary smines, thermodynamic la considerations suggest that detectable quantities of adducts may not be formed under our reaction conditions. ACENDWLEDGMENT Helpful
SUggeStiOnS
are gratefully
from Drs. R. V. Lindsey, Jr. and Chadwick A. Tolman
acknowledged. REFERENCES
(1) (a) L. Uhlmann, Wiss. 2. Tech. Hochsch.
Chem. ieuna-Merseburq,
(b) B. Howk et al., J. Am. Chem. Sot., 12, (c) British
Patent 756,538
(d) U.S. Patent 2,750,417
(1956). (1956).
(e) E. W. Stern and 14. L. Spector, (f) U.S. Patent 3,412,158
2, 263
1899 (1954).
(1968).
Proc. Cbem. Sot., 322
(1961).
(1963).