Desorption of gold nanoclusters (2–150nm) by 1GeV Pb ions

“…126,598 With respect to nanostructures, the desorption of Au, Ag, Pt, In, Ge, UO 2 , and PbS nanocluster films by swift heavy ions has been studied. 599,600 For Au, nanodispersed films containing Au nanoclusters of different sizes were first manufactured on a surface by vapor deposition of gold on amorphous carbon at substrate temperatures of 20-400°C ͑see Fig. 83͒, Ref.…”

“…83͒, Ref. 600. The films were subsequently irradiated with 965 MeV Pb ions, and sputtered material was gathered on a collector consisting of several TEM grids.…”

“…Moreover, the sputtered nanoclusters were more nearly spherical in shape than the initial ones, which suggests that they have been molten during the desorption process due to the energy deposition from the swift heavy ions. 599,600 At somewhat lower ion energies, films containing Au nanoclusters were irradiated with 100 MeV Au ions, and the size distribution of the sputtered material was measured. 601 Sputtering of up to 300 000 atom particles was reported, and the size distribution of the sputtered material was shown to be described well by a power law with two exponents.…”

Ion and electron irradiation-induced effects in nanostructured materials

“…126,598 With respect to nanostructures, the desorption of Au, Ag, Pt, In, Ge, UO 2 , and PbS nanocluster films by swift heavy ions has been studied. 599,600 For Au, nanodispersed films containing Au nanoclusters of different sizes were first manufactured on a surface by vapor deposition of gold on amorphous carbon at substrate temperatures of 20-400°C ͑see Fig. 83͒, Ref.…”

“…83͒, Ref. 600. The films were subsequently irradiated with 965 MeV Pb ions, and sputtered material was gathered on a collector consisting of several TEM grids.…”

“…Moreover, the sputtered nanoclusters were more nearly spherical in shape than the initial ones, which suggests that they have been molten during the desorption process due to the energy deposition from the swift heavy ions. 599,600 At somewhat lower ion energies, films containing Au nanoclusters were irradiated with 100 MeV Au ions, and the size distribution of the sputtered material was measured. 601 Sputtering of up to 300 000 atom particles was reported, and the size distribution of the sputtered material was shown to be described well by a power law with two exponents.…”

Ion and electron irradiation-induced effects in nanostructured materials

“…In addition to cluster emission during sputtering, in some specific experiments the emission of nanoparticles, which had been adsorbed to the surface of a substrate prior to bombardment, has been reported. In a series of experiments, Baranov and coworkers found that such emission occurs for a wide range of impact conditions; the most recent references include [17][18][19][20][21]. These authors investigated energy deposition by the projectile both in the nuclear stopping regime -for instance, impact of 72 keV Au 400 clusters or 200 keV Au 5 clusters -and in the electronic stopping regime, such as 1 GeV Pb ions or 30 MeV C 60 clusters.…”

News on sputter theory: Molecular targets, nanoparticle desorption, rough surfaces

“…A special module is manufactured to apply the ion beam from the accelerator instead of FF from 252 Cf, what makes it possible to increase both the intensity of NCI beams and the size range of desorbed gold nanocluster ions up to 90 nm [15].…”

A source of liquid drop metal nanocluster beams: Construction and application