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Antiferromagnetic binuclear halogen-bridged dithiocarbamate complexes of copper(II)
1N0R6. NucL. CHEM. LE77ER5. v01. 12, pp. 501-503, 1976. Per9am0n Pre55. Pr1nted 1n 6reat 8r1ta1n.
AN71FERR0MA6NE71C
81NUCLEAR
HAL06EN-8R1D6ED
C0MPLEXE50F R.H.
Furneaux,
and Ekk 51nn,
D17H10CAR8AMA7E
C0PPER(11)
Chem15try
Department,
V1ct0r1a
0f We111n9t0n,
We111n9t0n,
New 2ea1and
Department V1r91n1a,
0f Chem15try,
Un1ver51ty
Un1ver51ty
Char10tte5v111e,
0f
VA 22901
~e1v~20Fe6~a~197~ React10n50f c0pper(11)
ha11de5,
pr0duce51:1 decrea5e
CuX2,
adduct5
n1tr09en
c0nf1rm,
1n a v a r 1 e t y
t00ccur
temperature
temperature
a 61nuc1ear
5u5cept16111ty
d1th10car6amate5,
max1mum
ju5t w 1 t h 1 n
d0wn
he11um
t0114u1d
5u5cept16111ty
wh1ch
(F19.
61nuc1ear
c0mp1ex,
1) c 0 r r e 5 p 0 n d 1 n 9
c0pper(11)
Nd = 6 x 10
c0mp1ex
-5
c95emU,
N 2) t e m p e r a t u r e
ran9e,
unam619u0u5 ma9net1c
data
are c h a r a c t e r 1 5 t 1 c
0f a
t0 E4.
15 e 5 t 1 m a t e d
fr0m the
the 0ther
5ym6015
the1r
have
7he
1mpur1ty
up 1n the m 1 c r 0 a n a 1 y 5 e 5 , temperature
u5ua1
pr0pert1e50f
mean1n95. 5eparat10n
repre5ented
0n1y
and
at the
11m1t
0ther
7h15 y1e1d5 -2J,
1t5 c 0 n t r 1 6 u t 1 0 n
w1th
than
a va1ue
9 = 2.06, t05h0w 10w
t0 the m a 9 n e t -
temperature5.
{Cu(dtc)C1} 2 c 0 m p 1 e x e 5
501
0f the data;
6y p 15 t 0 0 5 m a 1 1
10we5t
(1)
0f p a r a m a 9 n e t 1 C
0r any m e a 5 u r e m e n t 5 0 t h e r
5u5cept16111t1e5,
15m 15 n 0 n - n e 9 1 1 9 1 6 1 e
+ Ne + 10.92P77
10w t e m p e r a t u r e
0f 98 cm -1 f0r the 5 1 n 9 1 e t - t r 1 p 1 e t p = 0.016.
(1) f0r a "5p1n-
(3) :
and p, the p r 0 p 0 r t 1 0 n
1mpur1ty,
ma9net1c
appeared
{Cu(822dtc)C1} 2, ha5 m a 9 n e t 1 c
×M - N923k782(1+~e-2J/k7)-1(1-P)
where
6ut d1d n0t
7he m a 9 n e t 1 c
We n0w rep0rt
temperature
d0wn
5tructure.
7he N , N - d 1 6 e n 2 y 1
0n1y"
(114.
and d1d n0t perm1t
0f the re5u1t5.
61nuc1ear
5u99e5ted,
(3) f0r 5uch d1mer5
the a v a 1 1 a 6 1 e
1nterpretat10n
m0ment5
Mea5urement5
{Cu(dtc)X] 2.
expected
n0t w e 1 1 - d e f 1 n e d
ma9net1c
(1,2).
(1,2)
5tructure
Cu(dtc)2 , w1th
0f a n h y d r 0 u 5 5 0 1 v e n t 5
Cu(dtc) 2.CuX 2 w h 0 5 e
w1th decrea51n9
t0114u1d
6ut wa5
c0pper(11)
are
7he 51m11ar,
502
~10car6am~e
1
C0mp~x~
•
1
~ C0p~r
•
(11)
1
•
2
7 103~<~M
100
200 7¢K) >
300
F16. 1 Exper1menta1 and ea1cu1ated ma9net1c 5u5cept16111ty
(XM) f0r
~(~tc)c1}~ 7A8LE 1 R 1n {Cu(R2dtc)C1} 2
J(cm -1)
(6en2y1) 2 (n-pr0py1) 2 (n-6uty1) 2
a5 1 n d 1 c a t e d 51m11ar
7he c r y 5 t a 1 X-ray
data
5tructure5 6etween
(F19.
that
the
0pp05e 11nk5.
(7a61e
m01ecu1e5
065ervat10n
(6,7)
(4,5)
a very
and p r e 1 1 m 1 n a r y
the 6 1 n u c 1 e a r weak
(d1mer1c)
0ut-0f-p1ane
1nteract10n5
E4.
(1)
c0mpared
15 1n k e e p 1 n 9
w1th
1nterm01ecu1ar
a5 d0 w e a k
6r1d9e5
tetramer1c
w1th
are u n 1 m p 0 r t a n t 7h15
that 0 u t - 0 f - p 1 a n e
1nteract10n5,
119and
11nked
0f the m a 9 n e t 1 5 m
1nteract10n5.
ma9net1c
-70 -68 -50
1mp1y1n9
t0 f0rm a w e a k 1 y
c0nf0rm1ty
1nter-d1mer
1),
0f 0ne c 0 m p 1 e x
1) and 1 n d 1 c a t e
1ntra-d1mer
5tr0n9
(n-penty1) 2 (n-hexy1) 2 (6en2y1, n~pr0py1)
(5) c 0 n f 1 r m
H0wever,
J(cm -1)
ca5e.
5tructure
the d 1 m e r 1 c
1mp11e5
9enera1
1n each
0n a n 0 t h e r
5tructure.
w1th
-49 -55 -65
6y the -2J v a 1 u e 5
5tructure
R 1n {Cu(R2dtc)C1} 2
the
11nk5
1nterm01ecu1ar
D1th10car6amate C0mp1exe50f C0pper (11) 0x1dat10n 0f r e a c t 1 0 n
and r e d u c t 1 0 n
e5pec1a11y
Cu(5CN) 2 are u5ed 7hu5
0n1y
w1th
n0n-ch10r1de
1n p1ace
tw0 c 0 m p 1 e x e 5
F0ner
techn14ue5
read11y
0f CuC12
1n 900d
Cu(C104)2
type have
{Cu(Et2dtc)8r~and
mea5urement5
1n th15
t0 react w 1 t h
were
carr1ed
and 5QU1D m a 9 n e t 0 m e t e r 5 ,
6e1n9
0ccur
Cu8r 2, Cu(N03)2,
0f the a60ve
119and5,
7he m a 9 n e t 1 c Faraday,
when
(2,8)
503 type
and
Cu(dtc) 2.
50 far 6een
f0rmed
{Cu(822dtc)8r} 2 • 0ut u51n9
the data
60uy,
fr0m the var10u5
a9reement.
Reference5 1.
Paper
2.
R.H.
pre5ented
1n Me160urne,
New 3.
A.R.
7he515,
2ea1and,
c1ted 4.
Au5tra11a,
FURNEAUX,
E. 51NN,
(6y E.5.)
at the 39th A.N.2.A.A.5. January
V1ct0r1a
C0n9re55
1967. Un1ver51ty
0f We111n9t0n,
1972.
C00rd.
Chem.
Rev.,
5, 313
(1970)
and r e f e r e n c e 5
there1n. HENDR1CK50N,
R.L.
C0mmun.,
843
5.
E. 51NN,
unpu6115hed
6.
E. 51NN,
1n0r9.
7.
H. Y0K01
and
8.
P.7.
MAR71N
and D. 7AYL0R,
J.C.5.
Chem.
(1975). data.
Chem.,
1n pre55.
M. CH1K1,4A,
J. Amer.
Chem.
50c.,
and J.J.
57E66ERDA,
97,
3975
(1975) . 8EUR5KEN5,
7, 810 377
(1968);
(1971);
(1972) ; R.M. 7ENNAN7,
J.A. H.C.
E.A.
CRA5
8R1NKH0FF,
PA5EK
60LD1N6,
Au5tra11an
Rec.
and D.K. C.M.
HARR15,
J. Chem.,
7rav.
57RAU8,
25,
K.J. 2567
1n0r9.
Ch1m.
Chem.,
Pay5-8a5,
1n0r9.
Chem.,
JE550P
and W.C.
(1972).
11,
90~ 259
AN71FERR0MA6NE71C
81NUCLEAR
HAL06EN-8R1D6ED
C0MPLEXE50F R.H.
Furneaux,
and Ekk 51nn,
D17H10CAR8AMA7E
C0PPER(11)
Chem15try
Department,
V1ct0r1a
0f We111n9t0n,
We111n9t0n,
New 2ea1and
Department V1r91n1a,
0f Chem15try,
Un1ver51ty
Un1ver51ty
Char10tte5v111e,
0f
VA 22901
~e1v~20Fe6~a~197~ React10n50f c0pper(11)
ha11de5,
pr0duce51:1 decrea5e
CuX2,
adduct5
n1tr09en
c0nf1rm,
1n a v a r 1 e t y
t00ccur
temperature
temperature
a 61nuc1ear
5u5cept16111ty
d1th10car6amate5,
max1mum
ju5t w 1 t h 1 n
d0wn
he11um
t0114u1d
5u5cept16111ty
wh1ch
(F19.
61nuc1ear
c0mp1ex,
1) c 0 r r e 5 p 0 n d 1 n 9
c0pper(11)
Nd = 6 x 10
c0mp1ex
-5
c95emU,
N 2) t e m p e r a t u r e
ran9e,
unam619u0u5 ma9net1c
data
are c h a r a c t e r 1 5 t 1 c
0f a
t0 E4.
15 e 5 t 1 m a t e d
fr0m the
the 0ther
5ym6015
the1r
have
7he
1mpur1ty
up 1n the m 1 c r 0 a n a 1 y 5 e 5 , temperature
u5ua1
pr0pert1e50f
mean1n95. 5eparat10n
repre5ented
0n1y
and
at the
11m1t
0ther
7h15 y1e1d5 -2J,
1t5 c 0 n t r 1 6 u t 1 0 n
w1th
than
a va1ue
9 = 2.06, t05h0w 10w
t0 the m a 9 n e t -
temperature5.
{Cu(dtc)C1} 2 c 0 m p 1 e x e 5
501
0f the data;
6y p 15 t 0 0 5 m a 1 1
10we5t
(1)
0f p a r a m a 9 n e t 1 C
0r any m e a 5 u r e m e n t 5 0 t h e r
5u5cept16111t1e5,
15m 15 n 0 n - n e 9 1 1 9 1 6 1 e
+ Ne + 10.92P77
10w t e m p e r a t u r e
0f 98 cm -1 f0r the 5 1 n 9 1 e t - t r 1 p 1 e t p = 0.016.
(1) f0r a "5p1n-
(3) :
and p, the p r 0 p 0 r t 1 0 n
1mpur1ty,
ma9net1c
appeared
{Cu(822dtc)C1} 2, ha5 m a 9 n e t 1 c
×M - N923k782(1+~e-2J/k7)-1(1-P)
where
6ut d1d n0t
7he m a 9 n e t 1 c
We n0w rep0rt
temperature
d0wn
5tructure.
7he N , N - d 1 6 e n 2 y 1
0n1y"
(114.
and d1d n0t perm1t
0f the re5u1t5.
61nuc1ear
5u99e5ted,
(3) f0r 5uch d1mer5
the a v a 1 1 a 6 1 e
1nterpretat10n
m0ment5
Mea5urement5
{Cu(dtc)X] 2.
expected
n0t w e 1 1 - d e f 1 n e d
ma9net1c
(1,2).
(1,2)
5tructure
Cu(dtc)2 , w1th
0f a n h y d r 0 u 5 5 0 1 v e n t 5
Cu(dtc) 2.CuX 2 w h 0 5 e
w1th decrea51n9
t0114u1d
6ut wa5
c0pper(11)
are
7he 51m11ar,
502
~10car6am~e
1
C0mp~x~
•
1
~ C0p~r
•
(11)
1
•
2
7 103~<~M
100
200 7¢K) >
300
F16. 1 Exper1menta1 and ea1cu1ated ma9net1c 5u5cept16111ty
(XM) f0r
~(~tc)c1}~ 7A8LE 1 R 1n {Cu(R2dtc)C1} 2
J(cm -1)
(6en2y1) 2 (n-pr0py1) 2 (n-6uty1) 2
a5 1 n d 1 c a t e d 51m11ar
7he c r y 5 t a 1 X-ray
data
5tructure5 6etween
(F19.
that
the
0pp05e 11nk5.
(7a61e
m01ecu1e5
065ervat10n
(6,7)
(4,5)
a very
and p r e 1 1 m 1 n a r y
the 6 1 n u c 1 e a r weak
(d1mer1c)
0ut-0f-p1ane
1nteract10n5
E4.
(1)
c0mpared
15 1n k e e p 1 n 9
w1th
1nterm01ecu1ar
a5 d0 w e a k
6r1d9e5
tetramer1c
w1th
are u n 1 m p 0 r t a n t 7h15
that 0 u t - 0 f - p 1 a n e
1nteract10n5,
119and
11nked
0f the m a 9 n e t 1 5 m
1nteract10n5.
ma9net1c
-70 -68 -50
1mp1y1n9
t0 f0rm a w e a k 1 y
c0nf0rm1ty
1nter-d1mer
1),
0f 0ne c 0 m p 1 e x
1) and 1 n d 1 c a t e
1ntra-d1mer
5tr0n9
(n-penty1) 2 (n-hexy1) 2 (6en2y1, n~pr0py1)
(5) c 0 n f 1 r m
H0wever,
J(cm -1)
ca5e.
5tructure
the d 1 m e r 1 c
1mp11e5
9enera1
1n each
0n a n 0 t h e r
5tructure.
w1th
-49 -55 -65
6y the -2J v a 1 u e 5
5tructure
R 1n {Cu(R2dtc)C1} 2
the
11nk5
1nterm01ecu1ar
D1th10car6amate C0mp1exe50f C0pper (11) 0x1dat10n 0f r e a c t 1 0 n
and r e d u c t 1 0 n
e5pec1a11y
Cu(5CN) 2 are u5ed 7hu5
0n1y
w1th
n0n-ch10r1de
1n p1ace
tw0 c 0 m p 1 e x e 5
F0ner
techn14ue5
read11y
0f CuC12
1n 900d
Cu(C104)2
type have
{Cu(Et2dtc)8r~and
mea5urement5
1n th15
t0 react w 1 t h
were
carr1ed
and 5QU1D m a 9 n e t 0 m e t e r 5 ,
6e1n9
0ccur
Cu8r 2, Cu(N03)2,
0f the a60ve
119and5,
7he m a 9 n e t 1 c Faraday,
when
(2,8)
503 type
and
Cu(dtc) 2.
50 far 6een
f0rmed
{Cu(822dtc)8r} 2 • 0ut u51n9
the data
60uy,
fr0m the var10u5
a9reement.
Reference5 1.
Paper
2.
R.H.
pre5ented
1n Me160urne,
New 3.
A.R.
7he515,
2ea1and,
c1ted 4.
Au5tra11a,
FURNEAUX,
E. 51NN,
(6y E.5.)
at the 39th A.N.2.A.A.5. January
V1ct0r1a
C0n9re55
1967. Un1ver51ty
0f We111n9t0n,
1972.
C00rd.
Chem.
Rev.,
5, 313
(1970)
and r e f e r e n c e 5
there1n. HENDR1CK50N,
R.L.
C0mmun.,
843
5.
E. 51NN,
unpu6115hed
6.
E. 51NN,
1n0r9.
7.
H. Y0K01
and
8.
P.7.
MAR71N
and D. 7AYL0R,
J.C.5.
Chem.
(1975). data.
Chem.,
1n pre55.
M. CH1K1,4A,
J. Amer.
Chem.
50c.,
and J.J.
57E66ERDA,
97,
3975
(1975) . 8EUR5KEN5,
7, 810 377
(1968);
(1971);
(1972) ; R.M. 7ENNAN7,
J.A. H.C.
E.A.
CRA5
8R1NKH0FF,
PA5EK
60LD1N6,
Au5tra11an
Rec.
and D.K. C.M.
HARR15,
J. Chem.,
7rav.
57RAU8,
25,
K.J. 2567
1n0r9.
Ch1m.
Chem.,
Pay5-8a5,
1n0r9.
Chem.,
JE550P
and W.C.
(1972).
11,
90~ 259