Journal article
K. Ferji*, P. Venturini, F. Cleymand, C. Chassenieux, J. Six
Polymer Chemistry, vol. 9, 2018, pp. 2868-2872
Polymer Chemistry, vol. 9, 2018, pp. 2868-2872
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APA
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Ferji*, K., Venturini, P., Cleymand, F., Chassenieux, C., & Six, J. (2018). In situ glyco-nanostructure formulation via photo-polymerization induced self-assembly. Polymer Chemistry, 9, 2868–2872.
Chicago/Turabian
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Ferji*, K., P. Venturini, F. Cleymand, C. Chassenieux, and J. Six. “In Situ Glyco-Nanostructure Formulation via Photo-Polymerization Induced Self-Assembly.” Polymer Chemistry 9 (2018): 2868–2872.
MLA
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Ferji*, K., et al. “In Situ Glyco-Nanostructure Formulation via Photo-Polymerization Induced Self-Assembly.” Polymer Chemistry, vol. 9, 2018, pp. 2868–72.
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@article{k2018a,
title = {In situ glyco-nanostructure formulation via photo-polymerization induced self-assembly},
year = {2018},
journal = {Polymer Chemistry},
pages = {2868-2872},
volume = {9},
author = {Ferji*, K. and Venturini, P. and Cleymand, F. and Chassenieux, C. and Six, J.}
}
Abstract
Frequently, the classical self-assembly techniques applied to amphiphilic glycopolymers lead to primitive morphologies, i.e. spherical micelles/nanoparticles. Herein, we report a facile and rapid one-pot synthesis and self-assembly of grafted amphiphilic glycopolymers using photo-initiated Polymerization-Induced Self-Assembly (Photo-PISA) under UV-irradiation at room temperature. Such glycopolymers were based on dextran as a hydrophilic steric stabilizer backbone and poly(hydroxypropyl methacrylate) PHPMA as a hydrophobic graft. Transmission electron microscopy and light scattering analysis reveal the formation of a broad set of advanced glyco-nanostructures ranging from spherical micelles to worm-like micelles and vesicles depending on both the PHPMA graft length and the solids content.