/ Home
/ SUBMISSION

/ The BJNANO
/ Diamond Open Access
/ Journal Statistics
/ Editorial Board
/ Community
/ Call for papers

/ Latest Articles
/ Most accessed
/ Thematic issues
/ Volumes
/ Authors

/ Alerts

/ TWITTER
/ LINKEDIN
/ Mastodon
/ RSS FEED

Empty search

Article Type

Publication Date Range

Search Tips

This search combines search strings from the content search (i.e. "Full Text", "Author", "Title", "Abstract", or "Keywords") with "Article Type" and "Publication Date Range" using the AND operator.

Search Examples

aromatic	the word “aromatic”
aromatic aldehyde	the word “aromatic” OR “aldehyde”
+aromatic +aldehyde	both words “aromatic” AND “aldehyde”
+aromatic -aldehyde	the word “aromatic” but NOT “aldehyde”
“aromatic aldehyde”	the exact phrase “aromatic aldehyde”
benz*	words which begin with “benz”, such as “benzene” or “benzyl”
benz*yl	words that begin with “benz” and end with “yl”, such as “benzyl” or “benzoyl”
benzyl~	words that are close to the word “benzyl”, such as “benzoyl” (i.e., fuzzy search)

BROWSE
Latest Articles
Most accessed
thematic issues
volumes
authors

BROWSE

Latest Articles Most Accessed Thematic Issues Volumes Authors

Author

2 article(s) from Salvat-Pujol, Francesc

Surface excitations in the modelling of electron transport for electron-beam-induced deposition experiments

Francesc Salvat-Pujol,
Roser Valentí and
Wolfgang S. Werner

Beilstein J. Nanotechnol. 2015, 6, 1260–1267, doi:10.3762/bjnano.6.129

PDF

Figure 1: Example incoming trajectories (dotted lines) in the surface-scattering zone (typically 15 Å above a...

Jump to Figure 1

Figure 2: Comparison of reflection-electron-energy-loss spectra (REELS) of Si (left) and Cu (right) under bom...

Jump to Figure 2

Figure 3: Simulation geometry: 1 keV electrons impinge normally onto the material (Si or Cu); all backscatter...

Jump to Figure 3

Figure 4: (Upper panel) Reflection-electron-energy-loss spectrum (REELS) of Si under 100 eV bombardment (see [55]...

Jump to Figure 4

Figure 5: Same as Figure 4 with the inclusion of surface excitations in the modelling of electron transport through t...

Jump to Figure 5

Album

Review

Published 03 Jun 2015

Full text

Simulation of electron transport during electron-beam-induced deposition of nanostructures

Francesc Salvat-Pujol,
Harald O. Jeschke and
Roser Valentí

Beilstein J. Nanotechnol. 2013, 4, 781–792, doi:10.3762/bjnano.4.89

PDF

Figure 1: Schematic representation of a random trajectory generated by PENELOPE [7]. The trajectory is determine...

Jump to Figure 1

Figure 2: Cylindrical sample geometries used in the simulations. Top: A 300 nm thick amorphous SiO₂ substrate...

Jump to Figure 2

Figure 3: Snapshot of 50 simulated electron trajectories in the SiO₂ substrate (left) and in the nanostructur...

Jump to Figure 3

Figure 4: Inelastic mean free paths for the relevant materials in this work presented in the usual log–log sc...

Jump to Figure 4

Figure 5: (a) Distribution of electrons backscattered and emitted into the vacuum from the substrate in absen...

Jump to Figure 5

Figure 6: Distribution of electrons backscattered and emitted into the vacuum from the substrate in the absen...

Jump to Figure 6

Figure 7: Energy deposited in the system as a function of the depth z for the indicated sample thicknesses d_W...

Jump to Figure 7

Figure 8: Same as Figure 7 for a fixed deposit density (ρ = 10.6092 g/cm³) and a variable tungsten content.

Jump to Figure 8

Figure 9: IMFP in the different deposits with fixed density (ρ = 10.6092 g/cm³) and a variable tungsten conte...

Jump to Figure 9

Figure 10: Same as Figure 7 for a fixed composition (27.5% W, 50.4% C, 22.1% O) and a variable density.

Jump to Figure 10

Figure 11: IMFP in different deposits with fixed composition (27.5% W, 50.4% C, 22.1% O) and a variable densit...

Jump to Figure 11

Figure 12: Charge deposited into the system as a function of the depth z for the indicated sample thicknesses d...

Jump to Figure 12

Figure 13: Distribution of energy deposited in WC_1.75O_0.75 as a function of the depth z and the radial coordin...

Jump to Figure 13

Figure 14: Same as Figure 13 for the charge deposited in WC_1.75O_0.75.

Jump to Figure 14

Album

Full Research Paper

Published 22 Nov 2013

Full text

Other Beilstein-Institut Open Science Activities

/ Help / Support & Contact / Alerts / Privacy Policy / Terms & Conditions / Impressum