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Beilstein J. Nanotechnol. 2017, 8, 1065–1072, doi:10.3762/bjnano.8.108
Figure 1: a) Normalized absorption of nanosphere and nanoprism solutions. b) TEM image of the synthetized nan...
Figure 2: Real and imaginary optical indices of PVP of 40,000 and 55,000 g·mol−1 average molar weight, fitted...
Figure 3: (a) Optical indices n and k, (b) reflectance measured and calculated by TMM for heterogeneous layer...
Figure 4: AFM topography of the nanospheres on a substrate.
Beilstein J. Nanotechnol. 2010, 1, 108–118, doi:10.3762/bjnano.1.13
Figure 1: WAXS diagram (top) and the related RDF (bottom). Black: experimental spectra of Fe NPs taken at roo...
Figure 2: WAXS diagram (top) and the related RDF (bottom). Black: Fe NPs taken at room temperature; dark grey...
Figure 3: XANES spectra taken at room temperature for metallic Fe NPs, compared to a Fe foil reference, and i...
Figure 4: Top: Mössbauer spectra taken at different temperatures. Bottom: experimental spectra (symbols) take...
Figure 5: Distributions of the IS and the µ0Hhyp used to fit the experimental Mössbauer spectrum measured at ...
Figure 6: ZFC-FC magnetizations measured under µoH = 1 mT. Inset shows the extracted temperature dependence o...
Figure 7: AC susceptibility measured for various frequencies (symbols) and their fits (solid lines).
Figure 8: Hysteresis loop measured at 2 K. Inset: enlargement near zero field showing the coercive field.
Figure 9: Magnetization curves in the superparamagnetic regime plotted versus the applied magnetic field (top...
Figure 10: Relaxation time versus the inverse of temperature.
Figure 11: FMR spectra collected for various T. Inset displays the evolution of geff versus 1/T.