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Article Abstract
Hypothesis: The structural modularity of Gemini Amphiphilic Pseudopeptides (GAPs) allows the tuning of the self-assembling properties by slight modifications in the chemical structures. We hypothesized that the introduction of a flexible linker containing a central nitrogen atom in bipodal and tripodal GAPs would improve their self-assembly properties in aqueous media.
Experiments: After preparation of the corresponding GAPs, a combination of SEM, TEM and AFM techniques were used to study the morphology of the self-assembled structures in different media. The solution structures in non-aggregated states were also analyzed by combining NMR, UV and CD studies. The transition from the non-aggregated species to the hierarchical self-assembly was monitored by ATR FT-IR spectroscopy, while the critical aggregation concentration in water was determined by fluorescence spectroscopy.
Findings: The formation of different morphologies (vesicles or fibers) highly depends on the polarity and the pH of the medium. A reasonable mechanism for the self-assembly has been established in agreement with the experimental techniques used, where the protonation of the nitrogen in the linker must play a key role. In general, the obtained GAPs showed an improved formation of vesicles in aqueous media (different pH or ionic strength) with potential applications in biomedicine and drug delivery.
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| http://dx.doi.org/10.1016/j.jcis.2019.12.109 | DOI Listing |
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