Potassium intercalation of carbon onions 'opened' by carbon dioxide treatment

The potassium intercalation of onion-like carbon (OLC) samples consisting of aggregates of carbon onions is studied with photoemission spectroscopy. OLC samples were initially prepared by annealing nanodiamonds (3-20 nm in diameter) at 1800 K in vacuum. The resulting OLC consists of closed fullerene-like shells. The 'closed' OLC was subsequently treated with carbon dioxide at 1020 K in order to open the carbon shells by partial oxidation to create 'opened' OLC. Core level and valence band photoelectron spectroscopy have been employed in characterizing the changes in electronic structure of the samples. Upon intercalation of the closed OLC with K the C1s core level and valence band features shift to higher binding energies and the density of states at the Fermi level increases, while this effect is significantly smaller for intercalated opened OLC. These results indicate that opening the shells of carbon onions allows potassium to penetrate inside the particles and thus opens up a possible route to fill carbon onions with desired substances and their application as nanocapsules

The local electronic structure of tin phthalocyanine studied by resonant soft X-ray emission spectroscopies

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Electronic structure of the organic semiconductor Alq₃ (aluminum tris-8-hydroxyquinoline) from soft x-ray spectroscopies and density functional theory calculations

The element-specific electronic structure of the organic semiconductor aluminum tris-8-hydroxyquinoline (Alq₃) has been studied using a combination of resonant x-ray emission spectroscopy, x-ray photoelectron spectroscopy, x-ray absorption spectroscopy, and density functional theory (DFT) calculations. Resonant and nonresonant x-ray emission spectroscopy were used to measure directly the carbon, nitrogen and oxygen 2p partial densities of states in Alq₃, and good agreement was found with the results of DFT calculations. Furthermore, resonant x-ray emission at the carbon K-edge is shown to be able to measure the partial density of states associated with individual C sites. Finally, comparison of previous x-ray emission studies and the present data reveal the presence of clear photon-induced damage in the former.7 page(s

Gold film with gold nitride-A conductor but harder than gold

The formation of surface nitrides on gold films is a particularly attractive proposition, addressing the need to produce harder, but still conductive, gold coatings which reduce wear but avoid the pollution associated with conventional additives. Here we report production of large area gold nitride films on silicon substrates, using reactive ion sputtering and plasma etching, without the need for ultrahigh vacuum. Nanoindentation data show that gold nitride films have a hardness ~50% greater than that of pure gold. These results are important for large-scale applications of gold nitride in coatings and electronics