Peptide-Based Gemini Amphiphiles: Phase Behavior and Rheology of Wormlike Micelles

Aqueous binary phase behavior of a peptide-based gemini amphiphile with glutamic acid and lysine as spacer group, acylglutamyllysilacylglutamate (m-GLG-m where m = 12, 14, and 16), has been reported over a wide range of concentration and temperature. Lauroylglutamyllysillauroylglutamate, 12-GLG-12,...

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Published inLangmuir Vol. 28; no. 44; pp. 15472 - 15481
Main Authors Shrestha, Rekha Goswami, Nomura, Kazuyuki, Yamamoto, Masashi, Yamawaki, Yukio, Tamura, Yoshinaga, Sakai, Kenichi, Sakamoto, Kazutami, Sakai, Hideki, Abe, Masahiko
Format Journal Article
LanguageEnglish
Published Washington, DC American Chemical Society 06.11.2012
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Summary:Aqueous binary phase behavior of a peptide-based gemini amphiphile with glutamic acid and lysine as spacer group, acylglutamyllysilacylglutamate (m-GLG-m where m = 12, 14, and 16), has been reported over a wide range of concentration and temperature. Lauroylglutamyllysillauroylglutamate, 12-GLG-12, self-assembles into spherical micelles above critical micelle concentration (CMC). The micellar region extends up to 32 wt %, and an ordering of spherical micelles into micellar cubic phase, I 1, takes place at 33 wt % at 25 °C. The phase transition, I 1 - hexagonal liquid crystal, (H 1) - lamellar liquid crystal, (L α) has been observed with further increase in concentration; moreover, mixed phases are also observed between the pure liquid crystal domains. Similar phases were observed with 16-GLG-16 above 50 °C (Krafft temperature). The partial ternary phase behavior shows that the micellar solutions of m-GLG-m can solubilize a large amount of cationic amphiphile, alkyltrimethylammonium bromide, C n TAB, (where n = 14 (TTAB) and 16 (CTAB)) at 25 °C. An addition of C n TAB to the aqueous solutions of 16-GLG-16 in a dilute region forms a transparent solution of viscoelastic wormlike micelles at very low concentration (0.25 wt %) even at ambient condition. A mixture of oppositely charged amphiphiles, m-GLG-m and C n TAB, exhibits synergism as a result the amphiphile layer curvature, becomes less positive, and favors the transition from sphere to rod to transient networks (wormlike micelles). The gemini amphiphile, 16-GLG-16, forms wormlike micelles at relatively low concentrations compared to others reported so far. Viscosity increases by six orders of magnitude compared to that of pure solvent. The hydrophobic chain length of m-GLG-m and coamphiphile affects the rheology; the maximum viscosity achieved with 16-GLG-16/H2O/CTAB is higher than that of 14-GLG-14/H2O/CTAB, 12-GLG-12/H2O/CTAB, and 16-GLG-16/H2O/TTAB systems. These temperature-sensitive systems exhibited viscoelastic behavior described by the Maxwell mechanical model with a single stress relaxation mode.
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ISSN:0743-7463
1520-5827
DOI:10.1021/la3022358