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2 article(s) from Shimojo, Masayuki

Fixation mechanisms of nanoparticles on substrates by electron beam irradiation

Daichi Morioka,
Tomohiro Nose,
Taiki Chikuta,
Kazutaka Mitsuishi and
Masayuki Shimojo

Beilstein J. Nanotechnol. 2017, 8, 1523–1529, doi:10.3762/bjnano.8.153

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Figure 1: SEM images of gold nanoparticles (diameter = 50 nm) placed over the Si substrate in the first step,...

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Figure 2: Distribution of the distance between particles.

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Figure 3: SEM images of gold nanoparticles, the diameters of which are (a) 100 nm and (b) 20 nm, fixed on the...

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Figure 4: Distribution of points at which electrons arrive at the substrate surface due to scattering in the ...

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Figure 5: SEM images of gold nanoparticles, the diameter of which is 100 nm, fixed on the Si substrate at acc...

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Figure 6: Distribution of points, at which electrons arrive at the substrate surface due to back-scattering i...

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Figure 7: Width of fixing area as a function of accelerating voltage and scan speed, at a probe current of 3 ...

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Figure 8: SEM images of gold nanoparticles, the diameter of which is 50 nm, fixed by (a) a line scan and (b) ...

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Figure 9: SEM images of gold nanoparticles fixed on (a) Cu and on (b) Si substrates, at an accelerating volta...

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Figure 10: Distance of scattered electron arriving at the surface of the substrate calculated by Monte Carlo m...

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Figure 11: SEM image of silica nanoparticles fixed on a Au-coated Si substrate.

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Figure 12: Schematic illustration of the experimental procedure consisting of (i) the arrangement of gold nano...

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Figure 13: Schematic illustration of the calculation of electron trajectories using Monte Carlo modeling: (1) ...

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Full Research Paper

Published 26 Jul 2017

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Patterning technique for gold nanoparticles on substrates using a focused electron beam

Takahiro Noriki,
Shogo Abe,
Kotaro Kajikawa and
Masayuki Shimojo

Beilstein J. Nanotechnol. 2015, 6, 1010–1015, doi:10.3762/bjnano.6.104

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Figure 1: Schematic illustration of the proposed technique. (i) A two-dimensional array of gold nanoparticles...

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Figure 2: SEM image of the substrate after step (i) using the amine-epoxy method.

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Figure 3: SEM image of the sample demonstrating that a row of nanoparticles was formed after step (iii), wher...

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Figure 4: SEM image of the sample irradiated over a relatively large, L-shaped area.

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Figure 5: Raman shift measured for the sample, providing evidence of the existence of amorphous carbon.

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Figure 6: TEM image of the amorphous deposit formed around/between the particle and the substrate (a), and sc...

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Figure 7: SEM image of the sample after step (i) using the amino-undecanethiol method.

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Figure 8: SEM image of the specimen using the amino-undecanethiol method after step (iii), illustrating that ...

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Figure 9: Schematic illustration of the formation of a two-dimensional, dense array of gold nanoparticles on ...

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Full Research Paper

Published 22 Apr 2015

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