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SELF-ASSEMBLED FLUIDS, GELS, LIQUID CRYSTALS (Selected Key Papers)
6. |
S.-H. Tung, H.-Y. Lee and S. R. Raghavan
A facile route for creating reverse vesicles: Insights into reverse self-assembly in organic liquids.
Journal of the American Chemical Society, 130, 8813 (2008) |
5. |
A. M. Ketner, R. Kumar, T. S. Davies, P. W. Elder and S. R. Raghavan
A simple class of photorheological fluids: Surfactant solutions with viscosity tunable by light.
Journal of the American Chemical Society, 129, 1553 (2007) |
4. |
T. S. Davies, A. M. Ketner and S. R. Raghavan
Self-assembly of surfactant vesicles that transform into viscoelastic wormlike micelles upon heating.
Journal of the American Chemical Society 128, 6669 (2006) |
3. |
S.-H. Tung, Y.-E. Huang and S. R. Raghavan
A new reverse wormlike micellar system: Mixtures of bile salt and lecithin in organic liquids.
Journal of the American Chemical Society 128, 5751 (2006) |
2. |
A. F. Kostko, B. H. Cipriano, O. Pinchuk, L. Ziserman, M. A. Anisimov, D. Danino and S. R.Raghavan
Salt effects on the phase behavior, structure, and rheology of chromonic liquid crystals.
Journal of Physical Chemistry B 109, 19126 (2005) |
1 . |
J. H. Lee, J. P. Gustin, T. Chen, G. F. Payne and S. R. Raghavan
Vesicle-biopolymer gels: Networks of surfactant vesicles connected by associating biopolymers.
Langmuir 21, 26 (2005) |
POLYMER COMPOSITES, GELS, SOLUTIONS (Selected Key Papers)
4. |
P. C. Thomas, B. H. Cipriano and S. R. Raghavan
Nanoparticle-crosslinked hydrogels as a class of efficient materials for separation and ion exchange.
Soft Matter, 7, 8192 (2011) |
3. |
W-C. Lai, S-C. Tseng, S-H. Tung, Y. E. Huang and S. R. Raghavan
Nanostructured polymers using a self-assembled nanofibrillar scaffold as a reverse template.
Journal of Physical Chemistry B, 113, 8026 (2009) |
2. |
B. H. Cipriano, A. K. Kota, C. J. Laskowski, D. I. Bigio, T. Kashiwagi, H. A. Bruck and S. R. Raghavan
Conductivity enhancement of carbon nanotube and nanofiber-based nanocomposites by annealing.
Polymer, 49, 4846 (2008) |
1. |
S. R. Raghavan, M. W. Riley, P. S. Fedkiw and S. A. Khan
Composite polymer electrolytes based on PEG and hydrophobic silica: Rheology and structure.
Chemistry of Materials, 10, 244 (1998) |
COLLOIDAL DISPERSIONS, GELS (Selected Key Papers)
NANOPARTICLES / NANOMATERIALS (Selected Key Papers)
4. |
J. S. Hong, S. M. Stavis, S. H. D. Lacerda, L. E. Locascio, S. R. Raghavan and M. Gaitan
Microfluidic directed self-assembly of liposome-hydrogel hybrid nanoparticles.
Langmuir, 26, 11581 (2010) |
3. |
J. H. Lee, D. Danino and S. R. Raghavan
Polymerizable vesicles based on a single-tailed fatty acid: A simple route to robust nano-containers.
Langmuir, 25, 1566 (2009) |
2. |
J. S. Hong, W. N. Vreeland, S. H. D. Lacerda, L. Locascio, M. Gaitan and S. R. Raghavan
Liposome-templated supramolecular assembly of responsive alginate nanogels.
Langmuir, 24, 4092 (2008) |
1. |
H.-P. Hentze, S. R. Raghavan, C. A. McKelvey and E. W. Kaler
Silica hollow spheres by templating of catanionic vesicles.
Langmuir 19, 1069 (2003) |
Last updated: September 12, 2011
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