10.6084/m9.figshare.4986374.v1
Aleksandra P. Dabkowska
Aleksandra P.
Dabkowska
Maria Valldeperas
Maria
Valldeperas
Christopher Hirst
Christopher
Hirst
Costanza Montis
Costanza
Montis
Gunnar K. Pálsson
Gunnar K.
Pálsson
Meina Wang
Meina
Wang
Sofi Nöjd
Sofi
Nöjd
Luigi Gentile
Luigi
Gentile
Justas Barauskas
Justas
Barauskas
Nina-Juliane Steinke
Nina-Juliane
Steinke
Gerd Schroeder-Turk
Gerd
Schroeder-Turk
Sebastian George
Sebastian
George
Maximilian W. A. Skoda
Maximilian
W. A. Skoda
Tommy Nylander
Tommy
Nylander
Complementary X-ray, ellipsometry and neutron data from Non-lamellar lipid assembly at interfaces: controlling layer structure by responsive nanogel particles
The Royal Society
2017
responsive lipid layers
nanogel
microgel
lipid non-lamellar liquid crystalline
neutron reflectivity
2017-05-09 10:13:25
Journal contribution
https://rs.figshare.com/articles/journal_contribution/Complementary_X-ray_ellipsometry_and_neutron_data_from_Non-lamellar_lipid_assembly_at_interfaces_controlling_layer_structure_by_responsive_nanogel_particles/4986374
Figure S1. Effect of temperature on the lattice parameter, a, of a cubic phase composed of GMO-50/DGMO (40/60 weight ratio) alone (open markers) or containing 10 wt% nanogel (black solid markers). Figure S2. SAXS data for the formulations of nanogels dispersed in lipids (85 wt % lipids composed of GMO-50/DGMO at a 40/60 weight ratio) with 15 wt % ethanol at 25 °C and 40 °C. Figure S3. Spectroscopic ellipsometry parameters, Δ (pink circles) and ψ (black triangles), as a function of wavelength for a film of GMO-50:DGMO (40:60 wt%) on silica. Figure S4. (A) Schematic representation of magnetic contrast surfaces used in this study. Figure S5. Neutron reflectivity data for a spin coated film of GMO-50:DGMO (60:40 wt% ratio) containing nanogel (10wt%) at (A) 25°C and (B) 40°C. Figure S6. Diffraction pattern extracted from the off-specular neutron reflectivity patterns in Figure 6 of lipid-only and lipid-nanogel layers at 25 °C and 40 °C.