Influence of added electrolytes on the lyotropic phase behavior of triethylammoniodecyloxycyanobiphenyl bromide (OCB-C10NEt3Br)
Influence of added electrolytes on the lyotropic phase behavior of triethylammoniodecyloxycyanobiphenyl bromide (OCB-C10NEt3Br)
The influence of added electrolytes (NaBr, NaCl, Na2SO4, Na3PO4 Na2HPO4, NaSCN) on the lyotropic mesophase behavior of triethylammoniodecyloxycyanobipenyl bromide (OCB-C10NEt3) has been studied using optical microscopy, X-ray diffraction, and NMR. Optical microscopy was employed to map the existence regions of the lamellar mesophase, while X-ray diffraction gave its interaggregate dimensions, and NMR was employed to monitor water ordering. Only lamellar and micellar phases have been observed. Tn all of the electrolytes except NaSCN, partial miscibility of surfactant and water is induced above a certain concentration. This usually involves the separation of a dilute surfactant solution from a more concentrated one. It does not occur within the extensive lamellar phase region. X-ray diffraction and NMR results demonstrate that the major influence of the electrolytes is to reduce the area per headgroup within the aggregates. The effects of the electrolytes follow the Hofmeister series and are attributed to adsorption or desorption of anions at the aggregate surface rather than to changes in "water structure". Sodium thiocyanate causes the occurrence of a "re-entrant" isotropic phase, in part because the lamellar phase is stabilized to low concentrations. The displacement of OCB groups from the micellar surface by SCN ions is suggested to account for this, which, if valid, offers a potential route to obtaining true amphitropic mesophases (i.e., materials with both thermotropic and lyotropic liquid crystalline order).
amphitropic liquid-crystals, chain nonionic surfactant, angle
neutron-scattering, aqueous mixtures, molecular design, lamellarphases, mesh phase, derivatives, system
10426-10436
Attard, G. S.
15b1b53e-25e4-4c5b-bc58-3601527f90d9
Fuller, S.
fc6af72b-1db5-4b6b-85d4-12ed80448889
Tiddy, G. J. T.
abd12043-d0ed-45d9-ae3b-bc071e237598
9 November 2000
Attard, G. S.
15b1b53e-25e4-4c5b-bc58-3601527f90d9
Fuller, S.
fc6af72b-1db5-4b6b-85d4-12ed80448889
Tiddy, G. J. T.
abd12043-d0ed-45d9-ae3b-bc071e237598
Attard, G. S., Fuller, S. and Tiddy, G. J. T.
(2000)
Influence of added electrolytes on the lyotropic phase behavior of triethylammoniodecyloxycyanobiphenyl bromide (OCB-C10NEt3Br).
The Journal of Physical Chemistry B, 104 (44), .
(doi:10.1021/jp0013513).
Abstract
The influence of added electrolytes (NaBr, NaCl, Na2SO4, Na3PO4 Na2HPO4, NaSCN) on the lyotropic mesophase behavior of triethylammoniodecyloxycyanobipenyl bromide (OCB-C10NEt3) has been studied using optical microscopy, X-ray diffraction, and NMR. Optical microscopy was employed to map the existence regions of the lamellar mesophase, while X-ray diffraction gave its interaggregate dimensions, and NMR was employed to monitor water ordering. Only lamellar and micellar phases have been observed. Tn all of the electrolytes except NaSCN, partial miscibility of surfactant and water is induced above a certain concentration. This usually involves the separation of a dilute surfactant solution from a more concentrated one. It does not occur within the extensive lamellar phase region. X-ray diffraction and NMR results demonstrate that the major influence of the electrolytes is to reduce the area per headgroup within the aggregates. The effects of the electrolytes follow the Hofmeister series and are attributed to adsorption or desorption of anions at the aggregate surface rather than to changes in "water structure". Sodium thiocyanate causes the occurrence of a "re-entrant" isotropic phase, in part because the lamellar phase is stabilized to low concentrations. The displacement of OCB groups from the micellar surface by SCN ions is suggested to account for this, which, if valid, offers a potential route to obtaining true amphitropic mesophases (i.e., materials with both thermotropic and lyotropic liquid crystalline order).
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Published date: 9 November 2000
Keywords:
amphitropic liquid-crystals, chain nonionic surfactant, angle
neutron-scattering, aqueous mixtures, molecular design, lamellarphases, mesh phase, derivatives, system
Identifiers
Local EPrints ID: 19001
URI: http://eprints.soton.ac.uk/id/eprint/19001
ISSN: 1520-5207
PURE UUID: fc6835e3-9df6-404d-aff9-c2ed732d76dd
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Date deposited: 05 Jan 2006
Last modified: 15 Mar 2024 06:10
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Author:
G. S. Attard
Author:
S. Fuller
Author:
G. J. T. Tiddy
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