Jan Lörinčı́k scite author profile

Ion-induced kinetic electron emission is commonly attributed to collisions of an energetic projectile with quasifree electrons, and to the promotion of atomic levels in binary collisions of the projectile with atomic particles in the solid. The contribution of the promotion processes to the electron emission has been estimated theoretically for all studied systems from molecular-orbital correlation diagrams. As quasifree electron collisional excitations have a sharp threshold at relatively high velocities of the projectiles, their contribution to the electron emission at lower impact velocities should be negligible. We will show, however, that the partial localization of the quasifree electrons due to the presence of the solid surface ''washes out'' this sharp threshold. This can lead to one-electron excitations at low impact velocities that may be more significant than excitations due to promotion. At the lowest impact velocities the electron emission yields conspicuously level off in some studied cases. Such behavior cannot be reconciled with any existing one-electron model ͑including the one proposed here͒, as they all predict a rapid decrease of the electron emission with decreasing impact velocity. In this paper we interpret the leveling-off of the yield in terms of a many-electron excitation mechanism, based on the assumption of spatial and temporal localizations of electronic excitation in the impact zone. The models discussed in this paper will be compared with experimental data on kinetic electron emission from polycrystalline gold bombarded by C ϩ , N ϩ , O ϩ , Ne ϩ , Ne 0 , Xe ϩ , and Au ϩ , with kinetic energies below ϳ15 keV, and perpendicular incidence on the surface.

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Layers of Metal Nanoparticles on Semiconductors Deposited by Electrophoresis from Solutions with Reverse Micelles

Žďánský

Kacerovsky

Zavadil

et al. 2007

Nanoscale Res Lett

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Pd nanoparticles were prepared with reverse micelles of water/AOT/isooctane solution and deposited onto silicon or InP substrates by electrophoresis. A large change of capacitance-voltage characteristics of mercury contacts on a semiconductor was found after Pd deposition. This change could be modified when the Pd deposition is followed by a partial removal of the deposited AOT. The deposited Pd nanoparticles were investigated by optical mictroscopy, SIMS and SEM. Finally, Schottky diodes with barrier height as high as 1.07 eV were prepared by deposition of Pd nanoparticles on n-type InP and by a partial removal of superfluous AOT. These diodes are prospective structures for further testing as hydrogen sensors.

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Jan Lörinčı́k

Quantitative study of oxygen enhancement of sputtered ion yields. I. Argon ion bombardment of a silicon surface with O2 flood

Determination of atomic boron concentration in heavily boron-doped diamond by Raman spectroscopy

Kinetic electron emission from clean polycrystalline gold induced by impact of slowC+,N+
Lörinčı́k
¹
,
Šroubek
²
,
Eder
³

et al. 2000
Phys. Rev. B
58
3
21
0
View full text Add to dashboard Cite

Layers of Metal Nanoparticles on Semiconductors Deposited by Electrophoresis from Solutions with Reverse Micelles

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Jan Lörinčı́k

Quantitative study of oxygen enhancement of sputtered ion yields. I. Argon ion bombardment of a silicon surface with O2 flood

Determination of atomic boron concentration in heavily boron-doped diamond by Raman spectroscopy

Kinetic electron emission from clean polycrystalline gold induced by impact of slowC+,N+Lörinčı́k1, Šroubek2, Eder3 et al. 2000Phys. Rev. B583210View full textAdd to dashboardCite

Layers of Metal Nanoparticles on Semiconductors Deposited by Electrophoresis from Solutions with Reverse Micelles

Contact Info

Product

Resources

About

Kinetic electron emission from clean polycrystalline gold induced by impact of slowC+,N+
Lörinčı́k
¹
,
Šroubek
²
,
Eder
³

et al. 2000
Phys. Rev. B
58
3
21
0
View full text Add to dashboard Cite