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Beilstein J. Nanotechnol. 2015, 6, 1601–1602, doi:10.3762/bjnano.6.163
Beilstein J. Nanotechnol. 2013, 4, 705–713, doi:10.3762/bjnano.4.80
Figure 1: Cycling behavior of C(FeF2)0.55, C(FeF2)0.55_200, C(FeF2)0.55_300 and C(FeF2)0.55_400. The material...
Figure 2: XRD pattern (Mo Kα) of: a) Nanocomposites with different C/F ratio, b) CFx precursors. *:FeF2; §:C ...
Figure 3: Measured Raman spectra and G-mode shifts of the different nanocomposites.
Figure 4: C K-edge EEL spectra of compounds with different carbon contents.
Figure 5: EEL spectra of C(FeF2)0.25_300. The spectrum shows the F K-edge and the Fe L3- and Fe L2-edges.
Figure 6: TEM and SAED pictures of a) C(FeF2)0.5_300, b) C(FeF2)0.35_300, c) C(FeF2)0.25_300 and d) one compl...
Figure 7: Discharge capacities at: a) 25 °C, b) 40 °C. The samples were cycled with a current density of 25 m...
Figure 8: Charge/discharge profiles for the first 20 cycles of the nanocomposites at 25 °C. The samples were ...
Figure 9: Long time cycling of C(FeF2)0.25_300. a) Specific discharge capacity at different temperatures, b) ...
Beilstein J. Nanotechnol. 2013, 4, 699–704, doi:10.3762/bjnano.4.79
Figure 1: XRD pattern and Raman spectrum (inset) of [Fe3O4-C].
Figure 2: SEM (top left) and TEM images of [Fe3O4–C].
Figure 3: Nitrogen isotherm (inset) and pore width profile (cumulative: open circles, differential: filled ci...
Figure 4: Electrochemical properties of [Fe3O4–C]. (a) Charge/discharge curves, (b) cyclic voltammograms, (c)...