Add to ORKGSputtering of Au thin films has been determined for Xe ions with energies between 50 and 600 keV. In-situ transmission electron microscopy was used to observe sputtered Au during deposition on a carbon foil near the specimen. Total reflection and transmission sputtering yields for a 62 nm thick Au thin film were determined by ex-situ measurement of the total amount of Au on the carbon foils. In situ observations show that individual Xe ions eject Au nanoparticles as large as 7 nm in diameter with an average diameter of approximately 3 nm. Particle emission correlates with crater formation due to single ion impacts. Nanoparticle emission contributes significantly to the total sputtering yield for Xe ions in this energy range in either reflec...
Hexagonally arranged Au nanoparticles exhibiting a broad Gaussian-shaped size distribution ranging f...
Au nanoparticles, prepared by thermal evaporation under high vacuum condition on Si substrate, are i...
Hexagonally arranged Au nanoparticles exhibiting a broad Gaussian-shaped size distribution ranging f...
Sputtering of Au thin films has been determined for Xe ions with energies between 50 and 600 keV. In...
In situ transmission electron microscopy has been used to observe sputtered Au during Xe ion irradia...
We have used in situ transmission electron microscopy to study the sputtering of gold by inert-gas i...
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...
Ion irradiation of nanoparticles leads to enhanced sputter yields if the nanoparticle size is of the...
Using experiments and computer simulations, we find that 80 keV Xe ion irradiation of Au nanorods ca...
Hexagonally arranged Au nanoparticles exhibiting a broad Gaussian-shaped size distribution ranging f...
Au nanoparticles, prepared by thermal evaporation under high vacuum condition on Si substrate, are i...
Hexagonally arranged Au nanoparticles exhibiting a broad Gaussian-shaped size distribution ranging f...
Sputtering of Au thin films has been determined for Xe ions with energies between 50 and 600 keV. In...
In situ transmission electron microscopy has been used to observe sputtered Au during Xe ion irradia...
We have used in situ transmission electron microscopy to study the sputtering of gold by inert-gas i...
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...
Ion irradiation of nanoparticles leads to enhanced sputter yields if the nanoparticle size is of the...
Using experiments and computer simulations, we find that 80 keV Xe ion irradiation of Au nanorods ca...
Hexagonally arranged Au nanoparticles exhibiting a broad Gaussian-shaped size distribution ranging f...
Au nanoparticles, prepared by thermal evaporation under high vacuum condition on Si substrate, are i...
Hexagonally arranged Au nanoparticles exhibiting a broad Gaussian-shaped size distribution ranging f...