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Beilstein J. Nanotechnol. 2022, 13, 1564–1571, doi:10.3762/bjnano.13.130
Figure 1: Absorbance spectra of CoMoCat SWCNT dispersions in riboflavin (red) and SDS (black).
Figure 2: PL maps of CoMoCat SWCNTs in riboflavin dispersion (a) before and (b) after single-step extraction.
Figure 3: (a) Optical spectra of Tuball SWCNTs in riboflavin dispersions: initial dispersion (black) and firs...
Figure 4: Riboflavin assembly around (6,5)-, (7,5)-, and (7,6)-chiral SWCNTs. SWCNTs are depicted by light gr...
Figure 5: Top and front views of SWCNT–riboflavin–dextran aggregates: (a) over two ribityl chains and (b) at ...
Beilstein J. Nanotechnol. 2012, 3, 692–702, doi:10.3762/bjnano.3.79
Figure 1: SEM images of as-prepared SWCNT networks dry-transferred onto the aluminium substrate. From top lef...
Figure 2: TEM micrographs of the as-produced SWCNTs. The synthesis conditions and corresponding bundle diamet...
Figure 3: (a) Bundle length statistics measured from SEM images, and (b) bundle diameter statistics from TEM ...
Figure 4: RBM modes (left) and D and G bands (right) of resonant Raman spectra recorded from SWCNTs synthesiz...
Figure 5: UV–vis–NIR absorption spectra (left) from the SWCNTs synthesized under different temperature condit...
Figure 6: Comparison of sheet resistance versus optical transparency (at 550 nm) of SWCNTs synthesized at dif...
Figure 7: (a) The figure of merit K versus bundle length. A linear dependence of K on Lbundle is observed, as...
Figure 8: An illustration to clarify how the total concentration of carbon depends on bundle diameter for a g...