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- ItemGrafting of functional methacrylate polymer brushes by photoinduced SET-LRP(Cambridge : RSC Publ., 2016) Vorobii, Mariia; Pop-Georgievski, Ognen; de los Santos Pereira, Andres; Kostina, Nina Yu.; Jezorek, Ryan; Sedláková, Zdeňka; Percec, Virgil; Rodriguez-Emmenegger, CesarPhotoinduced surface-initiated single electron transfer living radical polymerization (SET-LRP) is a versatile technique for the preparation of polymer brushes. The vast diversity of compatible functional groups, together with a high end-group fidelity that enables precise control of the architecture, makes this approach an effective tool for tuning the properties of surfaces. We report the application of photoinduced SET-LRP for the surface-initiated grafting of polymer brushes from a wide range of methacrylate monomers for the first time. The living character of the process was demonstrated by the linear evolution of the polymer brush thickness in time, the ability to reinitiate the polymerization for the preparation of well-defined block copolymers, and also by X-ray photoelectron spectroscopy depth profiling. The surface patterning with these brushes could be achieved simply by restricting the irradiated area. The ability of poly(methacrylate) brushes prepared in this way to prevent non-specific protein adsorption is also demonstrated, indicating the suitability of this procedure for advanced applications.
- ItemEncapsulation of hydrophobic components in dendrimersomes and decoration of their surface with proteins and nucleic acids(Washington, DC : National Acad. of Sciences, 2019) Torre, Paola; Xiao, Qi; Buzzacchera, Irene; Sherman, Samuel E.; Rahimi, Khosrow; Kostina, Nina Yu.; Rodriguez-Emmenegger, Cesar; Möller, Martin; Wilson, Christopher J.; Klein, Michael L.; Good, Matthew C.; Percec, VirgilReconstructing the functions of living cells using nonnatural components is one of the great challenges of natural sciences. Compartmentalization, encapsulation, and surface decoration of globular assemblies, known as vesicles, represent key early steps in the reconstitution of synthetic cells. Here we report that vesicles self-assembled from amphiphilic Janus dendrimers, called dendrimersomes, encapsulate high concentrations of hydrophobic components and do so more efficiently than commercially available stealth liposomes assembled from phospholipid components. Multilayer onion-like dendrimersomes demonstrate a particularly high capacity for loading low-molecular weight compounds and even folded proteins. Coassembly of amphiphilic Janus dendrimers with metal-chelating ligands conjugated to amphiphilic Janus dendrimers generates dendrimersomes that selectively display folded proteins on their periphery in an oriented manner. A modular strategy for tethering nucleic acids to the surface of dendrimersomes is also demonstrated. These findings augment the functional capabilities of dendrimersomes to serve as versatile biological membrane mimics.