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Organic metals from chiral BEDT-TTF donors
Synthetic Metals, 41--43 (1991) 2101-2105
2101
O R G A N I C M E T A L S F R O M CHIRAL B E D T - T T F DONORS
CHEN Benming +, F. DEILACHER, Anorganisch-Chemisches berg
M. HOCH, H.J. KELLER,
Institut der Universit~t
WU Peiji +
Heidelberg,
Heidel-
(F.R.G.)
P. ARMBRUSTER,
R. GEIGER,
3. Physikalisches
S. KAHLICH,
D. SCHWEITZER
Institut der Universit~t
Stuttgart,
Stuttgart
80,
(F.R.G.)
ABSTRACT We have recently described our project to prepare methylated BEDT-TTF derivatives
in order to obtain different
salts of these donors thyI-BEDT-TTF
("DIET"),
7,8'-DimethyI-BEDT-TTF
7,7',8,8'-Tetramethyl-BEDT-TTF some of them in an "optically have been prepared "classical"
starting
and 2,3-butanediol
ion
7,7'-Dime-
("DIET")
and
as isomeric mixtures
and
pure" form. The isomeric mixtures
of BEDT-TTF
pounds have been obtained propanediol
("TMET")
as reported earlier
synthesis
radical
(I). Meanwhile we have obtained
(I) corresponding
to the
(2). The optically pure comfrom the optically
respectively,
pure 1,2-
depicted on page 4.
RESULTS The different donors were electrocrystallized conditions.
under varying
The following results have been obtained:
(i) DIET-salts
could be crystallized with the counter ions FSO~, J
CLO4, HSO4, I04, Re04, BF4, CF3SO3, NO~, Br3, I~, [AuI2]- and PF 6. The salts (DIET) (BF 4) and (DIET) (FSO3)have been prepared starting
from an isomeric mixture and from the optically pure S,S
and R,R-derivatives preparations Monoclinic, 14.20(I)~, +Guests
of
respectively.
The crystals of the different
(DIET) (BF 4) show the same structural
space group C 2/m, a = 5,240(9),
features:
b = 12,13(I),
C =
B = 95.39(9) ° . The symmetry of the unit cell and the
from Academia
0379-6779/91/$3.50
Sinica, Institute of Chemistry,
Beijing
(China)
© Elsevier Sequoia/Printed in The Netherlands
2102
position of the methyl groups show that only an average of the possible m o l e c u l a r orientations investigations. Figures
in the lattice is found by X-ray
This means that the crystals are highly disordered.
I and 2 show the temperature d e p e n d e n c e of the electrical
conductivity
for
(DIET) (BF 4) o b t a i n e d from the isomeric mixture
and from the pure S , S - d e r i v a t i v e
(I)
(fig. 2).
(O IET)(BF4) 400~I
I
I
I
350-I .
I
+++++f+
400 350
+ +÷ ~ ~+~++÷÷++÷+ ++ %+ i
300-~ ~-
i
250-[
® oo o
+ ~.
200
300 "
C oo cP
250
200
150
~50
100
100 + = decreasing
50-]
temperature
50
= increasing temperature
0-4, 0
0 50
100
150
200
250
300
Temperotur~ [K]
Fig. I. T e m p e r a t u r e d e p e n d e n c e of the electrical c o n d u c t i v i t y of DIET-BF 4 from isomeric mixture of the donor
[(S, S)(-)-D I ET] [BF4] 150 J
i
:
i
i
14°I 120
150
++~,+o~o ~ ~ I ~ f÷ oo0090~eo~m~
r~
110 100
~-~
9o~
>',
80"1.~
~
i
120 110
+÷ QS ÷+
:l
/°
50
÷+÷o
100
~~
9O
÷+oo#
80
7(?
6o
4~
40
,~++
40
30
30
oolJ
20
+ = decreasing
I
o = increasing mmperature
0
50
100
~50
Temperoture
200 [K]
"
temperature
250
20 lo
300
~5
Fig. 2. Temperature dependence of the electrical conductivity of DIET-BF4 from the S,S-derivative of DIET (crosses are data during cooling, circles during heating of the sample).
2103
(ii) T M E T - s a l t s could be o b t a i n e d with the counter ions PF6, AsF6, SbF6,
I3, FSO3, CF3SO~,
mixtures
Re04, CIO4, BF4. S t a r t i n g from isomeric
and using PF~ as counter ion results
s e m i c o n d u c t i n g phase. TMET/PF 6 system
in a m e t a l l i c and a
In contrast to earlier i n v e s t i g a t i o n s of the
(3) we were able to isolate a m e t a l l i c solid. X-
ray i n v e s t i g a t i o n s
suggest that compounds of at least two diffe-
rent compositions
(TMET) 2PF 6 and
are obtained.
(TMET)2PF 6 phase contains the achiral R,S,R,S-
The
(TMET) (PF6) (C6H5C1)respectively
7,8,7',8'-Tetramethyl-BEDT-TTF molecules
solely.
(Crystal data: M o n o c l i n i c space group P2 I, a = 5,057(3), b = 6,823(4),
c = 33,44(2)~,
y = 107,72(5) ° , Z = I). Figure 3 gives an
i m p r e s s i o n of the a r r a n g e m e n t of the molecules
in the lattice.
This
s t r u c t u r e is totally d i f f e r e n t compared to the earlier reported semiconducting
(TMET) 2PF 6 phase
(3).
.
.
Fig.
.
.
.
.
.
.
,
3
A d d i t i o n a l l y we could characterize a 1:1 phase, which contains 2+ (TMET) 2 dimers. The m o l e c u l a r ions of a pair are related to each other by a center of symmetry.
So the crystal contains only the
R , R , S , R - 7 , 8 , 7 ' , 8 ' - T M E T m o l e c u l e s paired directly with its enantio2+ Figure 4 presents the c o n f o r m a t i o n of one (TMET) 2 pair in
mer.
this solid. F u r t h e r m o r e we could isolate an isostructural A s F ~ - p h a b
2104 Cn
Si
C;
C J~.
Ce
S 3.
""
C
S
---" -
-
~
~ Ss
,~-.J Cs
cJ.
C
,c n
,Co
se
(composition
a = 8,478(8),
(C14HI6S8)AsF6"C6H5CI:
b = 19,O6(2),
Fig.
monoclinic
c = 17,89(I)~,
space
S ~
~ [
S-C-CsH6
/S--O
NaOEt
S~ / S-Na÷
0
Xs/~'~S
S
S
DIET: X:=CH s Xs=H TUET: X: =Xs=CHs
P2 I,
B = 91,O2(7) ° , Z = 4).
Xl\ •
6HOH + SOCI,
groups
4
Sf~xz (*)
2105 REFERENCES
I
Chen Benming, Armbruster,
F. Deilacher, M. Hoch,
R. Geiger,
S. Kahlich,
H.J. Keller, Wu Peiji, P.
D. Schweitzer,
in Procee-
dings of the N A T O - A S I on " L o w e r - D i m e n s i o n a l Systems and Molecular Devices",
Spetses,
Greece,
1989.
2
M. Mizuno,
A. Garito, A. Cava, Chem. Commun.
3
A. Karrer,
J.D. Wallis, J.D. Dunitz,
B~rkle,
J. Pfeiffer,
Helv.
1978,
B. Hilti,
Chim. Acta,
70, 942
18
(1978).
C.W. Mayer, M. (1987).
2101
O R G A N I C M E T A L S F R O M CHIRAL B E D T - T T F DONORS
CHEN Benming +, F. DEILACHER, Anorganisch-Chemisches berg
M. HOCH, H.J. KELLER,
Institut der Universit~t
WU Peiji +
Heidelberg,
Heidel-
(F.R.G.)
P. ARMBRUSTER,
R. GEIGER,
3. Physikalisches
S. KAHLICH,
D. SCHWEITZER
Institut der Universit~t
Stuttgart,
Stuttgart
80,
(F.R.G.)
ABSTRACT We have recently described our project to prepare methylated BEDT-TTF derivatives
in order to obtain different
salts of these donors thyI-BEDT-TTF
("DIET"),
7,8'-DimethyI-BEDT-TTF
7,7',8,8'-Tetramethyl-BEDT-TTF some of them in an "optically have been prepared "classical"
starting
and 2,3-butanediol
ion
7,7'-Dime-
("DIET")
and
as isomeric mixtures
and
pure" form. The isomeric mixtures
of BEDT-TTF
pounds have been obtained propanediol
("TMET")
as reported earlier
synthesis
radical
(I). Meanwhile we have obtained
(I) corresponding
to the
(2). The optically pure comfrom the optically
respectively,
pure 1,2-
depicted on page 4.
RESULTS The different donors were electrocrystallized conditions.
under varying
The following results have been obtained:
(i) DIET-salts
could be crystallized with the counter ions FSO~, J
CLO4, HSO4, I04, Re04, BF4, CF3SO3, NO~, Br3, I~, [AuI2]- and PF 6. The salts (DIET) (BF 4) and (DIET) (FSO3)have been prepared starting
from an isomeric mixture and from the optically pure S,S
and R,R-derivatives preparations Monoclinic, 14.20(I)~, +Guests
of
respectively.
The crystals of the different
(DIET) (BF 4) show the same structural
space group C 2/m, a = 5,240(9),
features:
b = 12,13(I),
C =
B = 95.39(9) ° . The symmetry of the unit cell and the
from Academia
0379-6779/91/$3.50
Sinica, Institute of Chemistry,
Beijing
(China)
© Elsevier Sequoia/Printed in The Netherlands
2102
position of the methyl groups show that only an average of the possible m o l e c u l a r orientations investigations. Figures
in the lattice is found by X-ray
This means that the crystals are highly disordered.
I and 2 show the temperature d e p e n d e n c e of the electrical
conductivity
for
(DIET) (BF 4) o b t a i n e d from the isomeric mixture
and from the pure S , S - d e r i v a t i v e
(I)
(fig. 2).
(O IET)(BF4) 400~I
I
I
I
350-I .
I
+++++f+
400 350
+ +÷ ~ ~+~++÷÷++÷+ ++ %+ i
300-~ ~-
i
250-[
® oo o
+ ~.
200
300 "
C oo cP
250
200
150
~50
100
100 + = decreasing
50-]
temperature
50
= increasing temperature
0-4, 0
0 50
100
150
200
250
300
Temperotur~ [K]
Fig. I. T e m p e r a t u r e d e p e n d e n c e of the electrical c o n d u c t i v i t y of DIET-BF 4 from isomeric mixture of the donor
[(S, S)(-)-D I ET] [BF4] 150 J
i
:
i
i
14°I 120
150
++~,+o~o ~ ~ I ~ f÷ oo0090~eo~m~
r~
110 100
~-~
9o~
>',
80"1.~
~
i
120 110
+÷ QS ÷+
:l
/°
50
÷+÷o
100
~~
9O
÷+oo#
80
7(?
6o
4~
40
,~++
40
30
30
oolJ
20
+ = decreasing
I
o = increasing mmperature
0
50
100
~50
Temperoture
200 [K]
"
temperature
250
20 lo
300
~5
Fig. 2. Temperature dependence of the electrical conductivity of DIET-BF4 from the S,S-derivative of DIET (crosses are data during cooling, circles during heating of the sample).
2103
(ii) T M E T - s a l t s could be o b t a i n e d with the counter ions PF6, AsF6, SbF6,
I3, FSO3, CF3SO~,
mixtures
Re04, CIO4, BF4. S t a r t i n g from isomeric
and using PF~ as counter ion results
s e m i c o n d u c t i n g phase. TMET/PF 6 system
in a m e t a l l i c and a
In contrast to earlier i n v e s t i g a t i o n s of the
(3) we were able to isolate a m e t a l l i c solid. X-
ray i n v e s t i g a t i o n s
suggest that compounds of at least two diffe-
rent compositions
(TMET) 2PF 6 and
are obtained.
(TMET)2PF 6 phase contains the achiral R,S,R,S-
The
(TMET) (PF6) (C6H5C1)respectively
7,8,7',8'-Tetramethyl-BEDT-TTF molecules
solely.
(Crystal data: M o n o c l i n i c space group P2 I, a = 5,057(3), b = 6,823(4),
c = 33,44(2)~,
y = 107,72(5) ° , Z = I). Figure 3 gives an
i m p r e s s i o n of the a r r a n g e m e n t of the molecules
in the lattice.
This
s t r u c t u r e is totally d i f f e r e n t compared to the earlier reported semiconducting
(TMET) 2PF 6 phase
(3).
.
.
Fig.
.
.
.
.
.
.
,
3
A d d i t i o n a l l y we could characterize a 1:1 phase, which contains 2+ (TMET) 2 dimers. The m o l e c u l a r ions of a pair are related to each other by a center of symmetry.
So the crystal contains only the
R , R , S , R - 7 , 8 , 7 ' , 8 ' - T M E T m o l e c u l e s paired directly with its enantio2+ Figure 4 presents the c o n f o r m a t i o n of one (TMET) 2 pair in
mer.
this solid. F u r t h e r m o r e we could isolate an isostructural A s F ~ - p h a b
2104 Cn
Si
C;
C J~.
Ce
S 3.
""
C
S
---" -
-
~
~ Ss
,~-.J Cs
cJ.
C
,c n
,Co
se
(composition
a = 8,478(8),
(C14HI6S8)AsF6"C6H5CI:
b = 19,O6(2),
Fig.
monoclinic
c = 17,89(I)~,
space
S ~
~ [
S-C-CsH6
/S--O
NaOEt
S~ / S-Na÷
0
Xs/~'~S
S
S
DIET: X:=CH s Xs=H TUET: X: =Xs=CHs
P2 I,
B = 91,O2(7) ° , Z = 4).
Xl\ •
6HOH + SOCI,
groups
4
Sf~xz (*)
2105 REFERENCES
I
Chen Benming, Armbruster,
F. Deilacher, M. Hoch,
R. Geiger,
S. Kahlich,
H.J. Keller, Wu Peiji, P.
D. Schweitzer,
in Procee-
dings of the N A T O - A S I on " L o w e r - D i m e n s i o n a l Systems and Molecular Devices",
Spetses,
Greece,
1989.
2
M. Mizuno,
A. Garito, A. Cava, Chem. Commun.
3
A. Karrer,
J.D. Wallis, J.D. Dunitz,
B~rkle,
J. Pfeiffer,
Helv.
1978,
B. Hilti,
Chim. Acta,
70, 942
18
(1978).
C.W. Mayer, M. (1987).