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An investigation of bimetallic clusters by a combined use of electron microscopy and photoelectron spectroscopy: additive effects of alloying and cluster size on core-level binding energies

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dc.contributor.author Santra, A K
dc.contributor.author Subanna, G N
dc.contributor.author Rao, C N R
dc.date.accessioned 2012-12-05T08:57:30Z
dc.date.available 2012-12-05T08:57:30Z
dc.date.issued 1994-09-20
dc.identifier 0039-6028 en_US
dc.identifier.citation Surface Science 317(1-2), 259-268 (1994) en_US
dc.identifier.uri https://libjncir.jncasr.ac.in/xmlui/10572/1213
dc.description Restricted Access en_US
dc.description.abstract Bimetallic clusters of Ni-Pd, Cu-Ni, Cu-Au and Au-Ni deposited on amorphized graphite have been investigated by a combined use of photoelectron spectroscopy and electron microscopy. Metal core-level binding energies (Pd 3d, Au 4f and Ni/Cu 2p) of the bimetallic clusters deposited on amorphized graphite have been measured for different coverages or mean cluster sizes. When the cluster is large, the core-level binding energy of the major metallic component in the bimetallic clusters (e.g. Cu in Cu3Au or Cu7Ni3) is close to that of the bulk metal while that of the minor component (e.g. Au in Cu3Au or Ni in Cu7Ni3) shows the effect of alloying. The effect of alloying is found in the core-level energies of both Ni and Pd in the large clusters of Ni3Pd2. With the decrease in cluster size or coverage, the core-level binding energies of both the metals increase, just as in the case of monometallic clusters. The present results show the occurrence of parallel shifts in the core-level binding energy of metals due to alloying and cluster size effects, both the effects manifesting themselves in the small clusters. It is noteworthy that the core-level binding energy shifts in bimetallic clusters are distinctly different from those in bimetallic overlayers. Although alloy formation does not occur in the Au-Ni system in the bulk, the Au3Ni and Ni3Au clusters show variations in binding energies similar to the alloy clusters. It appears that alloying in the Au-Ni system may indeed occur in the nanometric regime of clusters. en_US
dc.description.uri http://dx.doi.org/10.1016/0039-6028(94)90273-9 en_US
dc.language.iso en en_US
dc.publisher Elsevier Science BV en_US
dc.rights © 1994 Elsevier Science BV en_US
dc.subject Metal-Clusters en_US
dc.subject Gold Clusters en_US
dc.subject Cu3au en_US
dc.subject Charge en_US
dc.subject Shifts en_US
dc.subject Bands en_US
dc.subject Photoemission en_US
dc.title An investigation of bimetallic clusters by a combined use of electron microscopy and photoelectron spectroscopy: additive effects of alloying and cluster size on core-level binding energies en_US
dc.type Article en_US


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