@article{2959219,
    title = "Hierarchical self-assembly and dynamics of a miktoarm star chimera composed of poly(γ-benzyl-L-glutamate), polystyrene, and polyisoprene",
    author = "A. Gitsas and G. Floudas and M. Mondeshki and I. Lieberwirth and H. W. Spiess and H. Iatrou and N. Hadjichristidis and A. Hirao",
    journal = "Macromolecules",
    year = "2010",
    volume = "43",
    number = "4",
    pages = "1874--1881",
    publisher = "American Chemical Society (ACS)",
    issn = "0024-9297, 1520-5835",
    doi = "10.1021/ma902631e",
    keywords = "Dynamic probes;  Hierarchical self-assembly;  L-glutamate;  Length scale;  Partial mixing;  Rod-coil;  Solid state NMR;  Submicrometers, Nuclear magnetic resonance;  Self assembly;  Transmission electron microscopy, Polystyrenes",
    abstract = "The hierarchical self-assembly at the submicrometer, nanometer and a-helical length scales has been studied in a miktoarm star rod-coil chimera composed of poly(γ-benzyl-L-glutamate) (PBLG), polystyrene, and polyisoprene blocks by X-ray scattering, solid state NMR, and transmission electron microscopy. The propensity of the rod block toward a-helices that are further hexagonally packed gives rise to pure PBLG domains and induces the partial mixing of the two amorphous blocks. These structural results were confirmed by independent dynamic probes at the segmental and a-helical level by NMR and dielectric spectroscopy, respectively. © 2010 American Chemical Society."
}