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Beilstein J. Nanotechnol. 2018, 9, 1024–1034, doi:10.3762/bjnano.9.95
Figure 1: SEM overview images in back scattering electron (BSE) contrast mode for the as-prepared samples of ...
Figure 2: SEM overview images in BSE contrast of the annealed samples of Fe50Co50@CNT (at 600 °C for 48 h) pr...
Figure 3: TEM bright field images for the a) as-prepared and b) annealed samples of Fe50Co50@CNT prepared by ...
Figure 4: Histograms representing the distribution of the inner diameter (nm) of the CNTs and particle diamet...
Figure 5: XRD diffraction patterns for the as-prepared and annealed samples of Fe50Co50@CNT prepared by the a...
Figure 6: Relative sample mass loss for a sample prepared by the first (i.e., solution) approach (black) and ...
Figure 7: Hysteresis curves measured at a) 300 K and c) 5 K for the annealed and the as-prepared Fe50Co50@CNT...
Beilstein J. Nanotechnol. 2016, 7, 948–956, doi:10.3762/bjnano.7.87
Figure 1: Six-helix bundle. The (a) front and (b) side view of the six-helix bundle are schematically depicte...
Figure 2: Experimental set-up for the investigation of the dielectrophoretic trapping. Schematic image of the...
Figure 3: Dielectrophoretic manipulation of six-helix bundles. Schematic representation of the (a) top and (b...
Figure 4: Dielectrophoretic manipulation of gold nanoparticle-conjugated six-helix bundles. (a) Schematic rep...
Figure 5: Electrical field intensity (a) in the presence of a gold-nanoparticle modified DNA structure, (b) p...