172 research outputs found
Predictive and experimental study of intelligent nanoparticles for controlling cardiac ECM after myocardial infarction
Il modello di Mossotti per la stabilità della materia", in La situazione delle Scienze al tempo della Prima Riunione degli Scienziati Italiani - 1839
A comparison between the absorption properties of the regular and F-s-defected MgO (100) surface
Surface-Supported Gold Cages
Individuazione di un nuovo tipo di strutture per nanoparticelle di oro adsorbite su MgO. Questre strutture sono vuote internamente. La loro stabilit\ue0 dipende dalla caratteristiche specifiche dell'interazione fra oro e la suparficie dell'ossido di magnesio
Metal adsorption on oxide polar ultrathin films
The adsorption of Au and Pd atoms on two nanostructured titania monolayers grown on the Pt(111) surface is investigated via a computational approach. These phases present compact regions (zig-zag-like stripes) with titanium atoms at the oxide\u2013metal interface and oxygen in the top-most overlayer, sometimes intercalated by point defects, i.e. holes exposing the bare metal support, and give rise to very regular patterns extending for large distances. A Pd atom experiences a rather flat energy landscape on the compact regions whereas it is strongly bound to the defects which act as nucleation centers, whence the interest of these substrates as nanotemplates for the growth of metal clusters. The interaction of a Au atom with these phases is peculiarly different: a charge transfer from the underlying Pt(111) support occurs so that Au gets negatively charged and strongly interacts with a titanium atom extracted from the interface in the compact regions, whereas it penetrates less easily than Pd into the defective holes due to its larger size. These results are discussed as paradigmatic examples of the interaction of metals with polar ultrathin films of oxides grown on metal supports, a novel and promising field in materials science
Cooperative Phase Transformation in Self-Assembled Metal-on-Oxide Arrays
The thermal behavior of a composite system formed by gold nanoclusters self-organized on a TiOx/Pt(111) ultrathin film is investigated via first-principles simulations. A cooperative phase transformation from a rectangular to an hexagonal phase occurs at high temperature, by which Au clusters do not coalesce, but rearrange their shape and positions together with the more mobile regions of the oxide. A model describing the atomistic processes behind this transformation is proposed that is in full agreement with available experimental data
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