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Beilstein J. Nanotechnol. 2015, 6, 792–798, doi:10.3762/bjnano.6.82
Figure 1: Photograph of a dish containing CNT-sponges, and two cut pieces of few cubic mm.
Figure 2: SEM micrographs showing the entangled structure of the network acquired at two different magnificat...
Figure 3: Electron energy loss spectra (Ep = 300 eV) obtained on the CNT-sponge. The π and π + σ plasmons hav...
Figure 4: Photographs of water droplets of different volumes (a) and contact angle profile of a single drop (...
Figure 5: Stability of the super-hydrophobic state. No roll-off angle was measured, even when the substrate i...
Figure 6: Burning and reuse of the CNT-sponge. Photograph of the starting of the oil-adsorption process (a), ...
Figure 7: SEM micrographs of the CNT-sponge surface after one (a) and two (b) burning processes. Corresponden...
Figure 8: Incident-photon-to-current efficiency (IPCE, %) obtained from a MWCNT 2D film (purple circles), and...
Beilstein J. Nanotechnol. 2015, 6, 353–360, doi:10.3762/bjnano.6.34
Figure 1: Scanning electron micrographs of SWCNT (a,c) and MWCNT (b,d) films at different magnifications 200,...
Figure 2: Scanning electron micrographs of SWCNT/MWCNT (a,c) and MWCNT/SWCNT (b,d) films at different magnifi...
Figure 3: Water droplets cast on SWCNT (a), MWCNT (b), SWCNT/MWCNT (c), and MWCNT/SWCNT (d) films. Owing to t...
Figure 4: (a) Contact angle of the SWCNT/MWCNT (blue squares) and MWCNT (red dots) films as a function of eth...
Figure 5: Variations of the contact angle as a function of the elapsed time from drop cast on the porous SWCN...