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Study of Influence of Salts Additives to Mixed Reverse Micelles via Reverse
Microemulsion Chromatography and UV-visible spectroscopy
Manuchar Gvaramia,
Postgraduate student, Department of Chemistry, Faculty of Exact and Natural Sciences,
Tbilisi University, Georgia
Reverse micelle Direct micelle
Mixed microemulsions on the basis of nonionic and anionic surfactants
Dependence of retention factors of solutes on the water/surfactant ratio
0
1
2
3
4
5
6
7
8
0 1 2 3 4 5 6
Water/surfactant ratio
Re
ten
tio
n f
ac
tor,
k
Caff
PB
CBZ
HQ
Dependence of retention factors of solutes on the water/surfactant ratio
0
1
2
3
4
5
6
0 1 2 3 4 5 6
Water/surfactant ratio
Ret
enti
on
fac
tor,
k
RC
PL
NB
Water,Brij-30, butanol and hexane with ratio (v/v.%): 0.3/2.8/4.6/92.3
Water,Brij-30, butanol and hexane with ratio (v/v.%): 0.7/2.8/4.6/91.9
Diagram of retention factors of solutes at w=2( ) and w=3 ( ) in the presence of sodium acetate(0.025M)
0
2
4
6
8
HQ PB CBZ Caff
Ret
enti
on
fac
tor,
k
w=2
w=3
Diagram of retention factors of solutes at w=2( ) and w=3 ( ) in the presence of sodium acetate(0.025M)
0
2
4
6
8
NB RC PL
Ret
entio
n fa
ctor
, k
w=2
w=3
Diagram of retention factors of solutes at w=2() and w=3() in the presence of potassium perchlotate(0.025)
0
2
4
6
8
HQ PB CBZ Caff
Ret
enti
on
fac
tor,
k
w=2
w=3
Diagram of retention factors of solutes at w=2() and w=3() in the presence of potassium perchlotate(0.025)
0
2
4
6
8
NB RC PL
Ret
enti
on
fac
tor,
k
w=2
w=3
Diagram of retention factors of solutes at the presense of sodium acetate () and potassium perchlorate() W=2
0
2
4
6
8
RC PL CBZ Caff PB
Ret
entio
n fa
cto
r, k
O-nitroaniline as molecular probe
Determination of binding constants of o-
nitroaniline (o-NA) to Brij-30 reverse micelles
0]30[][
][
BrijNAo
NAoK
f
bb
398398398
376376376
ANAoNAo
ANAoNAo
bbff
bbff
Absorption spectra of o-NA in hexane/(♦-0.0M Brij-30+ 0.1M AOT, 0.13 ·10-2M Brij-30+ 0.1AOT, 0.91·10-2M Brij-30+ 0.1M AOT, 2.73·10-2M Brij-30+ 0.1M AOT,
11.7·10-2M Brij-30+0.1M AOT, 23.4·10-2M Brij-30+ 0.1M AOT) at Brij-30 concentrations. At W0=0, [o-NA]=4.5·10-5M
0
0,02
0,04
0,06
0,08
0,1
0,12
0,14
0,16
0,18
300 350 400 450 500
Wavelength/nm
Ab
sorb
ance 0
0.13
0.91
2.73
11.7
23.4
Variation of λm of o-NA in reverse micelles as a function of Brij-30 concentration
Diagram of Kb of o-NA with (Brij-30+AOT) mixed micelles in the following conditions:1) absence of water, 2) presence of
water, 3) presence of 0.05M sodium acetate and 4) 0.05M
potassium perchlorate
a) Diagram of retention factors of solutes in the presence of sodium acetate (■) and potassium perchlorate (□) W=2
b) Diagram of binding constants of o-NA with (Brij-30+AOT) mixed micelles in the presence of 0.05M sodium acetate(■) and 0.05M potassium perchlorate(□)
0
50
100
Kb, M
-1
ab
0
2
4
6
8
RC PL CBZ Caff PB
Ret
entio
n fa
ctor
, k
Conclusions
• Binding of o-nitroaniline to reverse micelles is higher in the presence of chaotropic perchlorate ions in comparison with kosmotropic acetate ions.
• Solubility of the model compounds is lower in the presence of chaotropic anions in the water pools of reverse micelles as compared with kosmotropic acetate ions.
• Retention factor of the solutes are higher in the presence of kosmotropic acetate ions in the water nanocages of the reverse micelles as compared to perchlorate ions.
Conclusions
• Results may be useful in the investigations of water structure, when it is confined to nanometer-scale cavities, viz. in biological systems.
Acknowlegement
• I thank the Georgian Shota Rustaveli National Science Foundation and Julich Scientific Center for opportunity to participate in this project
Thanks for attention
• SO42- > F- > OAc- > Cl- > Br- > NO3
- > I- >
ClO4- > SCN-
Benzene-1,3-diolresorcinol benzene-1,2,3-triol
pyrogallol
benzene-1,4-diolhydroquinone
1,3-dimethyl-7H-purine-2,6-dionetheophylline
1,3,7-trimethyl-1H-purine-2,6(3H,7H)-dionecaffeine
2,2,2-trichloroethane-1,1-diol
Phenobarbital (5-ethyl-5-phenylbarbituric acid or 5-ethyl-5-phenylhexahydropyrimindin-2,4,6-trione)
carbamazepine
Absorption spectra of o-NA in different solvents:1) water (412), 2) ethanol (406 nm), 3) methanol
(405nm) and 4)isopropanol (407 nm)
Possible scheme of arrangement of ions in water pools of the reverse
micelle
