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Beilstein J. Nanotechnol. 2015, 6, 508–516, doi:10.3762/bjnano.6.53
Figure 1: Images of (a) a typical MWCNT and (b,d) typical VGCNFs. A schematic representation is given in (c) ...
Figure 2: Schematic of a method for producing filled SWCNTs and MWCNTs via arc discharge in solution. Metalli...
Figure 3: (a,b,c) Transmission electron micrographs of a hollow CVD-grown CNF with the graphene caps indicate...
Beilstein J. Nanotechnol. 2012, 3, 415–427, doi:10.3762/bjnano.3.48
Figure 1: Effect of increasing concentration on (a) the viscosity and (b) the shear stress versus shear rate ...
Figure 2: (a–c) Storage (G΄, diamonds) and loss modulus (G˝, squares) of KC solutions at concentrations of 0....
Figure 3: Effect of increasing sonication time on the UV–visible absorption spectrum of a dispersion containi...
Figure 4: (a) UV–vis absorbance at 21 °C and at 660 nm wavelength for MWNT (diamonds) and SWNT (triangles) di...
Figure 5: (a) I–V characteristics for KC–CNT (channel length 2 cm) and (b) resistance as a function of length...
Figure 6: SEM image of (a) KC–CNT and (b) KC–CNT–G composite films prepared by the evaporative-casting method...
Figure 7: Stress–strain curves for films with and without glycerin prepared by (a) evaporative casting and (b...
Figure 8: Response of KC–MWNT and KC–SWNT composite films to humidity change, H2 and CH4 gases (100 ppm in ai...
Figure 9: Photographs of (a) KC solution and KC–CNT dispersion, (b) films prepared by evaporative casting and...