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Beilstein J. Nanotechnol. 2024, 15, 367–375, doi:10.3762/bjnano.15.33
Figure 1: A. AFM images of pristine and 100 keV Ar+ ion-irradiated Si samples. (a) Pristine and irradiated sa...
Figure 2: A: AFM images of pristine and 100 keV Ar+ ion-irradiated Ge samples (a) pristine, (b) 3 × 1017, (c)...
Figure 3: TEM images of A. Si and B. Ge samples irradiated with 9 × 1017 ions/cm2, with corresponding SAED pa...
Figure 4: Aligned spectra for (A) Ge and (B) Si targets before and after ion irradiation with 100 keV Ar+ ion...
Figure 5: Damage fractions calculated for (A) Si and (B) Ge after irradiation (using the DICADA code. (C) Den...
Figure 6: Schematic representation of various defects produced due to low-energy ion interaction with target ...
Beilstein J. Nanotechnol. 2014, 5, 1864–1872, doi:10.3762/bjnano.5.197
Figure 1: Electronic and nuclear stopping vs ion energy (SRIM calculation for neon ions incident on Pt).
Figure 2: AFM images: a) pristine film, b–e) films irradiated with 50 keV, 140 keV, 350 keV and 600 keV, resp...
Figure 3: Rutherford backscattering spectra of the pristine and the irradiated films (Pt–Si).
Figure 4: SEM images: a) pristine sample, b) 350 keV ion-irradiated film, and c) 600 keV ion-irradiated film.
Figure 5: TEM images a) various interfaces, b) density distribution of NPs in ion beam modified region, c) in...
Figure 6: The distribution of silicon vacancies. The 50 keV neon ions were irradiated at normal incidence on ...
Figure 7: The distribution of Pt recoils (Pt/cm3 per Ne/cm2). The 50 keV neon ions were irradiated at normal ...
Figure 8: The XRD patterns of the pristine and the ion irradiated (Se/Sn = 10) films.
Beilstein J. Nanotechnol. 2014, 5, 1691–1698, doi:10.3762/bjnano.5.179
Figure 1: Experimental setup. The ion beam is incident perpendicularly to the nanocomposite thin film and cat...
Figure 2: RBS spectra of Zn–silica nanocomposite thin film before and after irradiation, (a) 2 atomic % Zn in...
Figure 3: TEM micrographs of 2 atomic % Zn in silica, (a) pristine film, (b) irradiated at a fluence of 3 × 10...
Figure 4: TEM micrographs of 10 atomic % Zn in silica, (a) pristine film, (b) irradiated at a fluence of 3 × ...
Figure 5: TEM micrographs of sputtered particles of (a) 2 atomic % Zn in silica and (b) 10 atomic % Zn in sil...
Figure 6: Schematic diagram of the formation of a thermal spike in the nanocomposite system. The small arrows...