2 article(s) from Shimojo, Masayuki
Figure 1: SEM images of gold nanoparticles (diameter = 50 nm) placed over the Si substrate in the first step,...
Figure 2: Distribution of the distance between particles.
Figure 3: SEM images of gold nanoparticles, the diameters of which are (a) 100 nm and (b) 20 nm, fixed on the...
Figure 4: Distribution of points at which electrons arrive at the substrate surface due to scattering in the ...
Figure 5: SEM images of gold nanoparticles, the diameter of which is 100 nm, fixed on the Si substrate at acc...
Figure 6: Distribution of points, at which electrons arrive at the substrate surface due to back-scattering i...
Figure 7: Width of fixing area as a function of accelerating voltage and scan speed, at a probe current of 3 ...
Figure 8: SEM images of gold nanoparticles, the diameter of which is 50 nm, fixed by (a) a line scan and (b) ...
Figure 9: SEM images of gold nanoparticles fixed on (a) Cu and on (b) Si substrates, at an accelerating volta...
Figure 10: Distance of scattered electron arriving at the surface of the substrate calculated by Monte Carlo m...
Figure 11: SEM image of silica nanoparticles fixed on a Au-coated Si substrate.
Figure 12: Schematic illustration of the experimental procedure consisting of (i) the arrangement of gold nano...
Figure 13: Schematic illustration of the calculation of electron trajectories using Monte Carlo modeling: (1) ...
Figure 1: Schematic illustration of the proposed technique. (i) A two-dimensional array of gold nanoparticles...
Figure 2: SEM image of the substrate after step (i) using the amine-epoxy method.
Figure 3: SEM image of the sample demonstrating that a row of nanoparticles was formed after step (iii), wher...
Figure 4: SEM image of the sample irradiated over a relatively large, L-shaped area.
Figure 5: Raman shift measured for the sample, providing evidence of the existence of amorphous carbon.
Figure 6: TEM image of the amorphous deposit formed around/between the particle and the substrate (a), and sc...
Figure 7: SEM image of the sample after step (i) using the amino-undecanethiol method.
Figure 8: SEM image of the specimen using the amino-undecanethiol method after step (iii), illustrating that ...
Figure 9: Schematic illustration of the formation of a two-dimensional, dense array of gold nanoparticles on ...