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Beilstein J. Nanotechnol. 2018, 9, 591–601, doi:10.3762/bjnano.9.55
Figure 1: SEM micrographs of rGO (a,d), rGO-Fe3O4 (b,e) and rGO-PDA@Fe3O4 (c,f) aerogel structures.
Figure 2: SEM micrographs of rGO-PDA@Fe3O4 aerogel (a,b) and TEM micrographs of Fe3O4 (c) and PDA@Fe3O4 nanop...
Figure 3: Raman spectra of rGO, rGO-Fe3O4 and rGO-PDA@Fe3O4 aerogel samples: λ = 488 nm (a), 514 nm (b), 633 ...
Figure 4: ID/IG ratios (a), mean defect distance (LD) (b) and FWHM (c) calculated from Raman spectra of rGO, ...
Figure 5: FTIR absorption (a) and XPS survey (b) spectra of rGO, rGO-Fe3O4 and rGO-PDA@Fe3O4 aerogel samples.
Figure 6: XPS C 1s, O 1s, N 1s and Fe 2p spectra of rGO, rGO-Fe3O4 and rGO-PDA@Fe3O4 aerogel samples. The int...
Figure 7: Room temperature M–H curves of rGO-Fe3O4, rGO-PDA@Fe3O4 and c-rGO-PDA@Fe3O4 aerogels (a). The inset...
Beilstein J. Nanotechnol. 2014, 5, 1760–1766, doi:10.3762/bjnano.5.186
Figure 1: The experimental XRD diffraction pattern obtained for ultrasound-treated graphite. Both hexagonal a...
Figure 2: A typical second-order Raman spectra of an irradiated sample: the turbostratic (T) structure band (...
Figure 3: EPR signal of ACFs in different temperatures.
Figure 4: EPR signal intensity vs temperature fitted with the unmodified Curie’s law (red) and Curie’s law mo...
Figure 5: EPR signal of ACFs. Adsorption/desorption of H2O: (a) initial signal of pure ACFs, signal gain 4∙104...
Figure 6: Resistivity vs the reciprocal square root of temperature for pure ACFs and ACFs filled with dipolar...