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Beilstein J. Nanotechnol. 2012, 3, 360–367, doi:10.3762/bjnano.3.42
Figure 1: (a) Photograph of the chemical vapour deposition chamber used to synthesize MWCNTs. The reactor com...
Figure 2: SEM image of the MWCNTs after growth on a stainless-steel substrate. The MWCNTs are randomly orient...
Figure 3: (a) Low-resolution TEM image assessing the multiwalled nature of the carbon nanotubes synthesized o...
Figure 4: Core-valence-valence (CVV) Auger spectra of MWCNTs (red curve) and HOPG (black curve). An electron ...
Figure 5: Energy-loss spectra of MWCNTs (red curve) and HOPG (black curve). In the case of MWCNTs, the σ+π-pl...
Figure 6: Comparison of the π-plasmon peak (0–12 eV) for MWCNTs (red curve) and HOPG (black curve). It is wor...
Figure 7: AFM 10 × 10 μm2 topography image of the as-exfoliated HOPG sample. The surface appears clean and se...
Figure 8: Scheme of the photovoltaic device. The Schottky junction between the Si and the MWCNT film is the p...
Figure 9: External quantum efficiency (EQE) spectra obtained in the top-down (dotted curve) and in-plane (fil...
Figure 10: J–V characteristics acquired in the dark and under illumination by white light. (a) In the in-plane...
Figure 11: Schematic depiction of the airbrush deposition process. A solution of MWCNTs in isopropyl alcohol w...