Abstract
In the present study, synchrotron small-angle X-ray scattering (SAXS) combined with a UV light source (in situ SAXS-UV irradiation) was used to determine the structure response of gold nanoparticle (NP)-loaded vesicles. The investigated system consisted of multilamellar vesicles of N-methylated dioleoylphosphatidylethanolamine (DOPE-Me) containing hydrophilic gold NPs with a size of 40 Å. Our results indicate drastic optothermically induced structural changes in these gold NP-loaded aqueous dispersions, which are accompanied by strong alterations in the phospholipid membrane permeability. A structural mechanism from well-ordered multilamellar vesicles in the fluid lamellar (Lα) phase to an inverted type hexagonal liquid crystalline (H2) phase via the formation of an intermediate phase of uncorrelated fluid bilayers is proposed. In general, these investigations are also crucial for the understanding of the potential of gold NP-loaded model phospholipid systems as efficient drug nanocarriers aiming to improve drug targeting and releasing on demand.
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