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Morpholine complexes of mercury (II) halides
=~IORG.
NUCL.
C1{. M,
LETTERS
Vol.
5,
pp.
255-258,
1969.
Fergomo.
Pre=s.
Printed
in
Oreat
8fitaln
I.S. Ahuja & (Miss) P. Rastegi Chemistry Department, Ba~ara~ Hindu University, Bamaras - 5 (ladia). (Received 30 December 1968, in revised form 30 Januoey 1969)
Recent spectroscepio studies en the cemplexes of morpheline with the halides and sulphates ef ~anganese(ll),
cebalt(ll), oepper(ll), zinc(II)
and cadmium(ll) have shewn that the merphelins is ceerdinated te these metals threugh nitregen (1,2).
The present ce~-,~unicatien describes such studies en
the merpheline cemplexes with mercury~ II) halides. The cemplexes prepared, their analytical data and the extracteC i.r. spectra are listed in Table I. the bismerphelinemercury(II)
The menemerphelinemercu~y(ll)
chlerAde and
bremide were prepared by adding merpheline te the
respective mercury(II) halide selutien in ethamel.
The bismerphelinemercury(II)
chleride was ebtaine~ by adding merpheline te mercury(If) chleride selutien in ether.
The iede- complex was prepared by heating mercury(if) iedide with
an excess ef morpheline!
the cemplex which crystallized eut en oeeling was
filtered and washed with dry ether. The i.r. spectra in the reck salt regien were recerded as Nujel and hexaehlerebutadiene mulls supperted between sedium ohleride plates en a Hilger H-800 spectrephetemeter.
The far i.r. spectra (15 te 45 ~) were recerded as
liujel mulls supperted between thin polythene sheets en a Orubb Farsens' D M4 spectrophntometer fitted with caesium iodice eptics. ~'he reck salt regien i.r. spectra e~ all the mercury []I) halide morpholine
complexes ~hn~ that the N - H stretchinc vibratien occurs at lewer
frequencies than in the unceordinated morpheline thus explaining the electren drainage from the nitregen due te its oeordinatien te the metal atem [i - 3). 255
256
MORPHOLINE COMPLEXES
Low values indicate
of the molar
o~ductanoe
that the complexes
non-ionic.
However
halide
er I! and L = a menedentate
are nen-electroiytes
complexes nitrogen
Although bisnorphelinemercury(Ii) solutions
by earlier workers
merpholinemercury(ll)
weight
pressure
and the halide
atems are
of the type HgL2X 2 [where X = CI~ Br ligaad)
are u s u a l l y pseude-tetrahe~ral. been prepared
the present
stuuies
li~unds
to oe dimer~c
I rem alcoholic
snow that the mone-
osmometer
tetrahsdral
in the trams- positions
el" the menomorphclinemercury(]I)
Inc. vapour
for these complexes
is obtainea uncer such c o n d i t i o n .
oeen s n o ~
and the organic
selutiens
they appear as i:I electrolytes.
chieride has
(4,5)
chloride
ef t~e type h g L X 2 nave bridges
in alcehelio
in dimethylformamide
1~e meroury(ll)
Vol. 5, No. 4.
model
chloride
~Tith halogen
(6,().
determinea
3(~I A, u s i n g di~lyme
~;omplexes
I:iolecular
en a l~ecnrelab
as a solvent
is 4b~
theoretical: while
H g ( m o r p h o l i n e ) C 1 2 = 358 ; ~{g(merpheline)C12 + diglyme = 4~2 ) L CI • C1 the dimeric ~llg ~ ~ Hg ~ molecule requires 716. ('l~e C1 C1 L
mol~cular B.H.U.
weight
determination
te whom thanks
mercury(II)
chloride
are due).
and osh~ves
coin E occupied chlori0e
carried out by kr. V.~. kuley, l~icreanalyst,
It is thus
may be either dimeric
solid state Out in solution di~lyme,
was
it appears
as a monomoric
by the solvent
were actually
t~o soI't o~ vib L'a~tions Lot the
tetrahedral
tha~ t'~ monomorpholineor 3-ceo~dinate
to t~n_ke up a molecule
molecule
molecule).
~imeric
considered
tetra~edr~l
[the fourth
in the
o± the selvent~
coordination
position
If the monoz!orpholineme1"cury[I!) in the soli~ o~ate
H g - 'D1 stretch~n~
modes
one ~rould exoect
(6) --
one a t / 3 2 0
-
290 cm -I due te terminal H g - C1 and toe other w2([~9 cm -1 aue te briaginc K g - C1 greup~
~hile only one ~ 3 2 0
linemercury(I~)
chloride.
- "290 ~
;~he appearance
-I for the te~ro_~ecLral b i s m o r p h e of a strong absorption
306 cm -I in the mono- as well as in bis - morpholine~ercury[Ii) indicate
that the former
of such absorption further
confirms
is dimerio
tetr~~hedral
chloride
in the solid state.
bounds in the bismorphelinemercury(II)
the assignment
band at
bromide
The absence
and ioaide
~I the bound at 3(~6 om -i due to zerminal Hg - C1
Vol. 5, No. 4.
MORPHOLINE COMPLEXE S
257
mode aria is in fair &greemant with the frequency normally abseciated with tstrahedral mercury - chlorine modes (6). bridging) expected ~ 2 0 0
The ether Hg - Cl made ~due te C1
cm -i as well as the terminal hg - Br amd Hg - I medea
are below the range (222 om -i) of the spectrophotemeter used in the present investigations. The low frequency i.r. spectra of all the mercury (I~) halide complexes absorb strongly at ~ 3 ~ 0 om
-I
which is net observed in the free merpholine. TABL~
I
)felting Analytical Data ~xtracted i.r. spect~& peint, i~xperimental Calculated iall figures in cm -~) aC. Netal Halogen Netal aalogen
Cempetmd
~
~
~
N - H Pmssible stretch k - N mode
Metal~alegen
mede
Nerpholine
3440s
H~merpheline)Cl 2
152
55.8
19.6
55.9
19.b
3190~
353 a
306 a
H~merpholine)2Cl 2
138 d
45.8
15.7
44.9
15.9
3188 m
340 s
3@6 a
Hg(merpheline)2Br 2
128
38.0
29.3
37.5
29.9
3300 s
335 s
..
H g ( m e r p h o l i n e ) 2 12
132 d
32.6
..
31.8
..
3274 s
340 s 320 s
..
* = ieCine could net be estimated~
s = strong;
m = medium;
]~:orpholine itself gives ~eaks in the far i.r. near 580, 43~ aria 258 cm -1 and the coordin~tted merpheline aAso gives peaks in these regions.
These peaks are
common to all complexes and have been omittea from toe Table.
'It is suggestea that these bands a~e most probably d~e to mercury(ll~ - nitrogen modes.
These bands eccur at almost the same frequencies f®r chlere-, bromo-
and lode- com-lexes.
This is to be expected for the metal - nitrogen modes in
the absence of s ~ n i f i c a n t in this
couplin F with metal - halogen modes.
Similar bands
r~n~e have 0sen observed ant assignea to ~ - i~ meaes in the halide
258
MORFHOLINE COMPLEXES
and sulphate oemplexes
(1,2).
1~rthermore,
Hg - N modes seems reasonable as absorptions
Vol. 5, No. 4.
the allocatlen o f these bands to in this range have been allocated
te Hg - N modes in most other mercury [II) complexes (9,10).
'i~e authors express ~ e i r
sincere thanks to Prof. G.B. Singh, Head of t~e
Chemistry Departmen~ for providing necessary facilities, te Dr. I.S. Sing~, Reader~ Spectroscopy
Department,
qlha~qs are also due
B.~.~ . for help in recording
the reck salt rs~ien i,r. spectra; M/s. ~lilger & Watts~ London for the far i.r. spectra an~ the U.(~.C. for the ~ward of a fellowship (~lisB Rastegi).
i.
J. Inorg. Nucl. Chem.,
I.S. AHUJA~
29, 2091 (I~67) 2.
l.S. AHUJA,
Inerganica Ghimica AQta, tin Press)
G.W.A. ~ 3 W L ~ , R.A. HOODlum, S and R.A. dALTON,
J. Chem. See., 5873 i1~63)
4.
H.N. HA~DL!GR and O.)i. DkiTH,
J. Am. Chem. ~oo., 63, ll04 ll~41)
5•
D. V~,~APPAYYA and G. AIL~.VA.kUDAN,
CLtrr. Sci., 37, 12 (1968)
6.
R.C. EVANS, F.G. ~J%NN, H.S. PEI[~ER and D. PURDIE,
J. Chem. ~ec., 1209 (1940)
7.
R.C. CASS, O.~. C O A T ~ R.G. RAPIDER ~
and
J. Chem. ~ec., 4007 (1955)
8.
G.J~. COAL ;~ and D. RIDL~;~
J. Chem. ~ec., 166 (i~J64)
9.
K. NAKA}i(~PO,
.
"Infrarea opectra ef Inorganic an¢ G@erdination Compounas" Je~m Wiley, Uew York (i~)63)
i0. S. ~iiZDSHI~LA, J.V. QUAGLI~fi{O,
T.J. LA1fT~_: a~qd
J. Am. Chem. ~ec., ~__9. 0, 525 (l~J5b).
NUCL.
C1{. M,
LETTERS
Vol.
5,
pp.
255-258,
1969.
Fergomo.
Pre=s.
Printed
in
Oreat
8fitaln
I.S. Ahuja & (Miss) P. Rastegi Chemistry Department, Ba~ara~ Hindu University, Bamaras - 5 (ladia). (Received 30 December 1968, in revised form 30 Januoey 1969)
Recent spectroscepio studies en the cemplexes of morpheline with the halides and sulphates ef ~anganese(ll),
cebalt(ll), oepper(ll), zinc(II)
and cadmium(ll) have shewn that the merphelins is ceerdinated te these metals threugh nitregen (1,2).
The present ce~-,~unicatien describes such studies en
the merpheline cemplexes with mercury~ II) halides. The cemplexes prepared, their analytical data and the extracteC i.r. spectra are listed in Table I. the bismerphelinemercury(II)
The menemerphelinemercu~y(ll)
chlerAde and
bremide were prepared by adding merpheline te the
respective mercury(II) halide selutien in ethamel.
The bismerphelinemercury(II)
chleride was ebtaine~ by adding merpheline te mercury(If) chleride selutien in ether.
The iede- complex was prepared by heating mercury(if) iedide with
an excess ef morpheline!
the cemplex which crystallized eut en oeeling was
filtered and washed with dry ether. The i.r. spectra in the reck salt regien were recerded as Nujel and hexaehlerebutadiene mulls supperted between sedium ohleride plates en a Hilger H-800 spectrephetemeter.
The far i.r. spectra (15 te 45 ~) were recerded as
liujel mulls supperted between thin polythene sheets en a Orubb Farsens' D M4 spectrophntometer fitted with caesium iodice eptics. ~'he reck salt regien i.r. spectra e~ all the mercury []I) halide morpholine
complexes ~hn~ that the N - H stretchinc vibratien occurs at lewer
frequencies than in the unceordinated morpheline thus explaining the electren drainage from the nitregen due te its oeordinatien te the metal atem [i - 3). 255
256
MORPHOLINE COMPLEXES
Low values indicate
of the molar
o~ductanoe
that the complexes
non-ionic.
However
halide
er I! and L = a menedentate
are nen-electroiytes
complexes nitrogen
Although bisnorphelinemercury(Ii) solutions
by earlier workers
merpholinemercury(ll)
weight
pressure
and the halide
atems are
of the type HgL2X 2 [where X = CI~ Br ligaad)
are u s u a l l y pseude-tetrahe~ral. been prepared
the present
stuuies
li~unds
to oe dimer~c
I rem alcoholic
snow that the mone-
osmometer
tetrahsdral
in the trams- positions
el" the menomorphclinemercury(]I)
Inc. vapour
for these complexes
is obtainea uncer such c o n d i t i o n .
oeen s n o ~
and the organic
selutiens
they appear as i:I electrolytes.
chieride has
(4,5)
chloride
ef t~e type h g L X 2 nave bridges
in alcehelio
in dimethylformamide
1~e meroury(ll)
Vol. 5, No. 4.
model
chloride
~Tith halogen
(6,().
determinea
3(~I A, u s i n g di~lyme
~;omplexes
I:iolecular
en a l~ecnrelab
as a solvent
is 4b~
theoretical: while
H g ( m o r p h o l i n e ) C 1 2 = 358 ; ~{g(merpheline)C12 + diglyme = 4~2 ) L CI • C1 the dimeric ~llg ~ ~ Hg ~ molecule requires 716. ('l~e C1 C1 L
mol~cular B.H.U.
weight
determination
te whom thanks
mercury(II)
chloride
are due).
and osh~ves
coin E occupied chlori0e
carried out by kr. V.~. kuley, l~icreanalyst,
It is thus
may be either dimeric
solid state Out in solution di~lyme,
was
it appears
as a monomoric
by the solvent
were actually
t~o soI't o~ vib L'a~tions Lot the
tetrahedral
tha~ t'~ monomorpholineor 3-ceo~dinate
to t~n_ke up a molecule
molecule
molecule).
~imeric
considered
tetra~edr~l
[the fourth
in the
o± the selvent~
coordination
position
If the monoz!orpholineme1"cury[I!) in the soli~ o~ate
H g - 'D1 stretch~n~
modes
one ~rould exoect
(6) --
one a t / 3 2 0
-
290 cm -I due te terminal H g - C1 and toe other w2([~9 cm -1 aue te briaginc K g - C1 greup~
~hile only one ~ 3 2 0
linemercury(I~)
chloride.
- "290 ~
;~he appearance
-I for the te~ro_~ecLral b i s m o r p h e of a strong absorption
306 cm -I in the mono- as well as in bis - morpholine~ercury[Ii) indicate
that the former
of such absorption further
confirms
is dimerio
tetr~~hedral
chloride
in the solid state.
bounds in the bismorphelinemercury(II)
the assignment
band at
bromide
The absence
and ioaide
~I the bound at 3(~6 om -i due to zerminal Hg - C1
Vol. 5, No. 4.
MORPHOLINE COMPLEXE S
257
mode aria is in fair &greemant with the frequency normally abseciated with tstrahedral mercury - chlorine modes (6). bridging) expected ~ 2 0 0
The ether Hg - Cl made ~due te C1
cm -i as well as the terminal hg - Br amd Hg - I medea
are below the range (222 om -i) of the spectrophotemeter used in the present investigations. The low frequency i.r. spectra of all the mercury (I~) halide complexes absorb strongly at ~ 3 ~ 0 om
-I
which is net observed in the free merpholine. TABL~
I
)felting Analytical Data ~xtracted i.r. spect~& peint, i~xperimental Calculated iall figures in cm -~) aC. Netal Halogen Netal aalogen
Cempetmd
~
~
~
N - H Pmssible stretch k - N mode
Metal~alegen
mede
Nerpholine
3440s
H~merpheline)Cl 2
152
55.8
19.6
55.9
19.b
3190~
353 a
306 a
H~merpholine)2Cl 2
138 d
45.8
15.7
44.9
15.9
3188 m
340 s
3@6 a
Hg(merpheline)2Br 2
128
38.0
29.3
37.5
29.9
3300 s
335 s
..
H g ( m e r p h o l i n e ) 2 12
132 d
32.6
..
31.8
..
3274 s
340 s 320 s
..
* = ieCine could net be estimated~
s = strong;
m = medium;
]~:orpholine itself gives ~eaks in the far i.r. near 580, 43~ aria 258 cm -1 and the coordin~tted merpheline aAso gives peaks in these regions.
These peaks are
common to all complexes and have been omittea from toe Table.
'It is suggestea that these bands a~e most probably d~e to mercury(ll~ - nitrogen modes.
These bands eccur at almost the same frequencies f®r chlere-, bromo-
and lode- com-lexes.
This is to be expected for the metal - nitrogen modes in
the absence of s ~ n i f i c a n t in this
couplin F with metal - halogen modes.
Similar bands
r~n~e have 0sen observed ant assignea to ~ - i~ meaes in the halide
258
MORFHOLINE COMPLEXES
and sulphate oemplexes
(1,2).
1~rthermore,
Hg - N modes seems reasonable as absorptions
Vol. 5, No. 4.
the allocatlen o f these bands to in this range have been allocated
te Hg - N modes in most other mercury [II) complexes (9,10).
'i~e authors express ~ e i r
sincere thanks to Prof. G.B. Singh, Head of t~e
Chemistry Departmen~ for providing necessary facilities, te Dr. I.S. Sing~, Reader~ Spectroscopy
Department,
qlha~qs are also due
B.~.~ . for help in recording
the reck salt rs~ien i,r. spectra; M/s. ~lilger & Watts~ London for the far i.r. spectra an~ the U.(~.C. for the ~ward of a fellowship (~lisB Rastegi).
i.
J. Inorg. Nucl. Chem.,
I.S. AHUJA~
29, 2091 (I~67) 2.
l.S. AHUJA,
Inerganica Ghimica AQta, tin Press)
G.W.A. ~ 3 W L ~ , R.A. HOODlum, S and R.A. dALTON,
J. Chem. See., 5873 i1~63)
4.
H.N. HA~DL!GR and O.)i. DkiTH,
J. Am. Chem. ~oo., 63, ll04 ll~41)
5•
D. V~,~APPAYYA and G. AIL~.VA.kUDAN,
CLtrr. Sci., 37, 12 (1968)
6.
R.C. EVANS, F.G. ~J%NN, H.S. PEI[~ER and D. PURDIE,
J. Chem. ~ec., 1209 (1940)
7.
R.C. CASS, O.~. C O A T ~ R.G. RAPIDER ~
and
J. Chem. ~ec., 4007 (1955)
8.
G.J~. COAL ;~ and D. RIDL~;~
J. Chem. ~ec., 166 (i~J64)
9.
K. NAKA}i(~PO,
.
"Infrarea opectra ef Inorganic an¢ G@erdination Compounas" Je~m Wiley, Uew York (i~)63)
i0. S. ~iiZDSHI~LA, J.V. QUAGLI~fi{O,
T.J. LA1fT~_: a~qd
J. Am. Chem. ~ec., ~__9. 0, 525 (l~J5b).