Julian Oberdisse
University of Montpellier
147 Papers
1.3K Citations
Julian Oberdisse is an academic researcher from University of Montpellier. The author has contributed to research in topics: Small-angle neutron scattering & Polymer. The author has an hindex of 36, co-authored 137 publications. Previous affiliations of Julian Oberdisse include Technical University of Berlin & University of Southern Brittany.
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Papers
Structure of Latex−Silica Nanocomposite Films: A Small-Angle Neutron Scattering Study
Julian Oberdisse,Bruno Demé +1 more
TL;DR: In this article, the main stage of the synthesis consists of physicochemical manipulations of colloidal solutions of nanosilica and nanolatex bimidex biclusters.
Structure of Polypeptide Based Diblock Copolymers in Solution: Stimuli-responsive Vesicles and Micelles
Frédéric Chécot,Annie Brûlet,Julian Oberdisse,Yves Gnanou,Olivier Mondain-Monval,Sébastien Lecommandoux +5 more
TL;DR: Polypeptide-based diblock copolymers forming either well-defined self-assembled micelles or vesicles after direct dissolution in water or in dichloromethane have been studied combining light and neutron scattering with electron microscopy experiments and provide significant advantages in the control of the structure and function of supramolecular self-assemblies.
Spatial distribution of core monomers in acrylamide-based core-shell microgels with linear swelling behaviour.
Marian Cors,Oliver Wrede,Lars Wiehemeier,Artem Feoktystov,Fabrice Cousin,Thomas Hellweg,Julian Oberdisse +6 more
TL;DR: In this paper, the structure of pNIPMAM-core and pNNPAM-shell microgels in water is studied as a function of temperature using small-angle neutron scattering with selective deuteration.
Deuteration-Induced Volume Phase Transition Temperature Shift of PNIPMAM Microgels.
TL;DR: Deuteration of the monomer or copolymerization with deuterated monomers shifts the volume phase transition temperature (VPTT) by up to 8.4 K to higher temperatures, in good agreement with known results for pNIPAM microgels.
Reinforcement and Polymer Mobility in Silica-Latex Nanocomposites with Controlled Aggregation
Mouna Tatou,Mouna Tatou,Anne-Caroline Genix,Anne-Caroline Genix,Ainara Imaz,Jacqueline Forcada,Amélie Banc,Amélie Banc,Ralf Schweins,Isabelle Grillo,Julian Oberdisse,Julian Oberdisse +11 more
TL;DR: In this paper, an aggregation diagram as a function of the control parameters (silica volume fraction and precursor solution pH) has been established, and isoaggregation lines have been identified.