Add to ORKGIon irradiation of nanoparticles leads to enhanced sputter yields if the nanoparticle size is of the order of the ion penetration depth. While this feature is reasonably well understood for collision-cascade sputtering, we explore it in the regime of collision-spike sputtering using molecular-dynamics simulation. For the particular case of 200-keV Xe bombardment of Au particles, we show that collision spikes lead to abundant sputtering with an average yield of 397 ± 121 atoms compared to only 116 ± 48 atoms for a bulk Au target. Only around 31 % of the impact energy remains in the nanoparticles after impact; the remainder is transported away by the transmitted projectile and the ejecta. The sputter yield of supported nanoparticles is estima...
Hexagonally arranged Au nanoparticles exhibiting a broad Gaussian-shaped size distribution ranging f...
Hexagonally arranged Au nanoparticles exhibiting a broad Gaussian-shaped size distribution ranging f...
Sputtering of gold nanoparticles and nanometer-thin films under 25 keV gallium-ion bombardment is s...
Sputtering yields, enhanced by more than an order of magnitude, have been observed for 80 keV Xe ion...
Sputtering yields, enhanced by more than an order of magnitude, have been observed for 80 keV Xe ion...
Sputtering yields, enhanced by more than an order of magnitude, have been observed for 80 keV Xe ion...
Using experiments and computer simulations, we find that 80 keV Xe ion irradiation of Au nanorods ca...
Using experiments and computer simulations, we find that 80 keV Xe ion irradiation of Au nanorods ca...
Using experiments and computer simulations, we find that 80 keV Xe ion irradiation of Au nanorods ca...
Using experiments and computer simulations, we find that 80 keV Xe ion irradiation of Au nanorods ca...
Using experiments and computer simulations, we find that 80 keV Xe ion irradiation of Au nanorods ca...
We have used in situ transmission electron microscopy to study the sputtering of gold by inert-gas i...
Using experiments and computer simulations, we find that 80 keV Xe ion irradiation of Au nanorods ca...
Sputtering yields, enhanced by more than an order of magnitude, have been observed for 80 keV Xe ion...
Sputtering of Au thin films has been determined for Xe ions with energies between 50 and 600 keV. In...
Hexagonally arranged Au nanoparticles exhibiting a broad Gaussian-shaped size distribution ranging f...
Hexagonally arranged Au nanoparticles exhibiting a broad Gaussian-shaped size distribution ranging f...
Sputtering of gold nanoparticles and nanometer-thin films under 25 keV gallium-ion bombardment is s...
Sputtering yields, enhanced by more than an order of magnitude, have been observed for 80 keV Xe ion...
Sputtering yields, enhanced by more than an order of magnitude, have been observed for 80 keV Xe ion...
Sputtering yields, enhanced by more than an order of magnitude, have been observed for 80 keV Xe ion...
Using experiments and computer simulations, we find that 80 keV Xe ion irradiation of Au nanorods ca...
Using experiments and computer simulations, we find that 80 keV Xe ion irradiation of Au nanorods ca...
Using experiments and computer simulations, we find that 80 keV Xe ion irradiation of Au nanorods ca...
Using experiments and computer simulations, we find that 80 keV Xe ion irradiation of Au nanorods ca...
Using experiments and computer simulations, we find that 80 keV Xe ion irradiation of Au nanorods ca...
We have used in situ transmission electron microscopy to study the sputtering of gold by inert-gas i...
Using experiments and computer simulations, we find that 80 keV Xe ion irradiation of Au nanorods ca...
Sputtering yields, enhanced by more than an order of magnitude, have been observed for 80 keV Xe ion...
Sputtering of Au thin films has been determined for Xe ions with energies between 50 and 600 keV. In...
Hexagonally arranged Au nanoparticles exhibiting a broad Gaussian-shaped size distribution ranging f...
Hexagonally arranged Au nanoparticles exhibiting a broad Gaussian-shaped size distribution ranging f...
Sputtering of gold nanoparticles and nanometer-thin films under 25 keV gallium-ion bombardment is s...