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Rheology and nuclear magnetic resonance measurements under shear of sodium dodecyl sulfate/decanol/water nematics
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1.
1.Amaral, L. Q. and M. E. M. Helene, “Nematic domain in the sodium lauryl sulfate/water/decanol system,” J. Phys. Chem. 92, 60946098 (1988).
2.
2.Amaral, L. Q. , M. E. M. Helene, D. R. Bittencourt, and R. Itri, “New nematic lyomesophase of sodium dodecyl sulfate,” J. Phys. Chem. 91, 59495953 (1987).
3.
3.Berghausen, J. , J. Zipfel, P. Lindner, and W. Richtering, “Shear-induced orientations in a lyotropic defective lamellar phase,” Europhys. Lett. 43, 683689 (1998).
4.
4.Berret, J.-F. and D. C. Roux, “Rheology of nematic wormlike micelles,” J. Rheol. 39, 725741 (1995).
5.
5.Berret, J.-F. , D. C. Roux, G. Porte, and P. Lindner, “Tumbling behavior of nematic wormlike micelles under shear flow,” Europhys. Lett. 32, 137142 (1995).
6.
6.Burghardt, W. R. , “Molecular orientation and rheology in sheared lyotropic liquid crystalline polymers,” Macromol. Chem. Phys. 199, 471488 (1998).
7.
7.Caputo, F. E. , W. R. Burghardt, and J. F. Berret, “Tumbling dynamics in a nematic surfactant solution in transient shear flow,” J. Rheol. 43, 765779 (1999).
8.
8.Furo, I. and B. Halle, “Micelle size and orientational order across the nematic-isotropic transition: A field-dependent nuclear spin relaxation study,” Phys. Rev. E 51, 466477 (1995).
9.
9.Grabowski, D. A. and C. Schmidt, “Simultaneous measurements of shear viscosity and director orientation of a side-chain liquid crystalline polymer by rheo-NMR,” Macromolecules 27, 26322640 (1994).
10.
10.Hendrikx, Y. and J. Charvolin, “Structural relations between lyotropic phases in the vicinity of the nematic phases,” J. Phys. (France) 42, 14271440 (1981).
11.
11.Hendrikx, Y. , J. Charvolin, M. Rawiso, L. Liébert, and M. C. Holmes, “Anisotropic aggregates of amphiphilic molecules in lyotropic nematic phases,” J. Phys. Chem. 87, 39913999 (1983).
12.
12.Itri, R. and L. Q. Amaral, “Micellar-shape anisometry near isotropic-liquid-crystal phase transition,” Phys. Rev. E 47, 25512557 (1993).
13.
13.Itri, R. and L. Q. Amaral, “Study of the isotropic-hexagonal transition in the system SLS/H2O,” J. Phys. Chem. 94, 21982202 (1990).
14.
14.Larson, R. G., The Structure and Rheology of Complex fluids, (Oxford, University Press, New York, 1999).
15.
15.Larson, R. G. and M. Doi, “Mesoscopic domain theory for textured liquid crystalline polymers,” J. Rheol. 35, 539563 (1991).
16.
16.Larson, R. G. and D. W. Mead, “Development of orientation and texture during shearing of liquid-crystalline polymers,” Liq. Cryst. 12, 751768 (1992).
17.
17.Lukaschek, M. , S. Müller, A. Hasenhindl, D. A. Grabovski, and C. Schmidt, “Lamellar lyomesophases under shear as studied by deuterium nuclear magnetic resonance,” Colloid Polym. Sci. 274, 17 (1996).
18.
18.Marrucci, G. , “Rheology of liquid crystalline polymers,” Pure Appl. Chem. 57, 15451552 (1985).
19.
19.Marrucci, G. and F. Greco, “Flow behavior of liquid crystalline polymers,” Adv. Chem. Phys. 83, 331404 (1993).
20.
20.Moldenaers, P. and J. Mewis, “Transient behavior of liquid crystalline solutions of poly-(benzyl glutamate),” J. Rheol. 30, 567584 (1986).
21.
21.Moldenaers, P. , H. Yanase, and J. Mewis, “Flow-induced anisotropy and its decay in polymeric liquid crystals,” J. Rheol. 35, 16811699 (1991).
22.
22.Müller, S. , C. Börschig, W. Gronski, C. Schmidt, and D. Roux, “Shear-induced states of orientation of the lamellar phase of C12E4/water,” Langmuir 15, 75587564 (1999).
23.
23.Müller, S. , P. Fischer, and C. Schmidt, “Solid-like director reorientation in sheared hexagonal lyotropic liquid crystals as studied by nuclear magnetic resonance,” J. Phys. II 7, 421432 (1997).
24.
24.Quist, P.-O. , B. Halle, and I. Furo, “Micelle size and order in lyotropic nematic phases from nuclear spin relaxation,” J. Chem. Phys. 96, 38753891 (1992).
25.
25.Roux, D. C. , J.-F. Berret, G. Porte, E. Peuvrel-Disdier, and P. Lindner, “Shear induced orientations and textures of nematic wormlike micelles,” Macromolecules 28, 16811687 (1995).
26.
26.Siebert, H. , D. A. Grabowski, and C. Schmidt, “Rheo-NMR study of non-flow-aligning side-chain liquid crystal polymer in nematic solution,” Rheol. Acta 36, 618627 (1997).
27.
27.Vermant, J. , M. Mortier, P. Moldenaers, and J. Mewis, “An evaluation of the Larson–Doi model for liquid crystalline pollymers using recoil,” Rheol. Acta 38, 537545 (1999).
28.
28.Yu, L. J. and A. Saupe, “Observation of a biaxial nematic phase in potassium laurate-1-decanol mixtures,” Phys. Rev. Lett. 45, 10001003 (1980).
29.
29.Zipfel, J. , J. Berghausen, P. Lindner, and W. Richtering, “Influence of shear on lyotropic lamellar phases with different membranes defects,” J. Phys. Chem. B 103, 28412849 (1999).
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2001-01-01
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752b84549af89a08dbdd7fdb8b9568b5 journal.articlezxybnytfddd
Scitation: Rheology and nuclear magnetic resonance measurements under shear of sodium dodecyl sulfate/decanol/water nematics
http://aip.metastore.ingenta.com/content/sor/journal/jor2/45/1/10.1122/1.1332387
10.1122/1.1332387
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