Nanoscale surface chemistry

Abstract: We report evidence in several experiments for nanometer-size effects in surface chemistry. The evidence concerns bimetallic systems, monolayer films of Pt or Pd on W(111) surfaces. Pyramidal facets with {211} faces are formed on annealing on physical monolayer of Pt, Pd on a W(111) substrate, and facet sizes increase with annealing temperature. We used synchrotron radiation-based soft x-ray photoemission to show that monolayer films of Pt, Pd, on W ''float'' on the outer surface, whereas multilayer films form … Show more

“…The presence of co-adsorbed O 2 appears to have opposite effects on the computed CO adsorption energies on supported Pt 3 and Au 3 : it reduces that of CO on Pt 3 /TiO 2 by ∼0.3 eV and increases E CO ads on Au 3 /TiO 2 by approximately the same amount (Table IV) in the absence (Table III) and presence (Table IV) …”

“…On stoichiometric TiO 2 , two Pt atoms of the trimer bind with two neighboring O 2c at distance 2.056 Å and two Ti 5c at distance 2.664 Å. Consequently, the Pt-Pt bond parallel to the surface is slightly longer (2.516 Å) than the other two Pt-Pt bonds (2.508 Å) pointing away from Similarly Figure 4. For Pt 3 , we can see a large number of metal states in the TiO 2 band gap, which makes the overall band gap nearly vanishing. On the stoichiometric surface (Figure 4(a)), no Ti occupied state is present near the Fermi level (E F ), as expected.…”

“…This implies that the TiO 2 excess electron is transferred to the cluster, which then transforms to the closed shell Au 3 anion. Finally, the PDOS in Figure 4(f) for Au 3 on r 2 TiO 2 indicate that one of the two excess electrons is transferred to the cluster, which becomes Au 3 , while the other remains on the surface. with increasing surface reduction.…”

“…Noble metal nanoparticles (NPs) supported on oxide surfaces are widely used in heterogeneous catalysis [1][2][3][4][5][6][7][8][9] and photocatalysis, where they can effectively inhibit the recombination of photogenerated electron-hole pairs in photocatalytic processes, 10,11 and at the same time facilitate/enhance the catalytic activity. 11,12 Among oxide supports for metal NPs, titanium dioxide (TiO 2 ) is known for showing significant promoting effects of the NPs' catalytic activity.…”

Effect of reducible oxide–metal cluster charge transfer on the structure and reactivity of adsorbed Au and Pt atoms and clusters on anatase TiO2

“…The presence of co-adsorbed O 2 appears to have opposite effects on the computed CO adsorption energies on supported Pt 3 and Au 3 : it reduces that of CO on Pt 3 /TiO 2 by ∼0.3 eV and increases E CO ads on Au 3 /TiO 2 by approximately the same amount (Table IV) in the absence (Table III) and presence (Table IV) …”

“…On stoichiometric TiO 2 , two Pt atoms of the trimer bind with two neighboring O 2c at distance 2.056 Å and two Ti 5c at distance 2.664 Å. Consequently, the Pt-Pt bond parallel to the surface is slightly longer (2.516 Å) than the other two Pt-Pt bonds (2.508 Å) pointing away from Similarly Figure 4. For Pt 3 , we can see a large number of metal states in the TiO 2 band gap, which makes the overall band gap nearly vanishing. On the stoichiometric surface (Figure 4(a)), no Ti occupied state is present near the Fermi level (E F ), as expected.…”

“…This implies that the TiO 2 excess electron is transferred to the cluster, which then transforms to the closed shell Au 3 anion. Finally, the PDOS in Figure 4(f) for Au 3 on r 2 TiO 2 indicate that one of the two excess electrons is transferred to the cluster, which becomes Au 3 , while the other remains on the surface. with increasing surface reduction.…”

“…Noble metal nanoparticles (NPs) supported on oxide surfaces are widely used in heterogeneous catalysis [1][2][3][4][5][6][7][8][9] and photocatalysis, where they can effectively inhibit the recombination of photogenerated electron-hole pairs in photocatalytic processes, 10,11 and at the same time facilitate/enhance the catalytic activity. 11,12 Among oxide supports for metal NPs, titanium dioxide (TiO 2 ) is known for showing significant promoting effects of the NPs' catalytic activity.…”

Effect of reducible oxide–metal cluster charge transfer on the structure and reactivity of adsorbed Au and Pt atoms and clusters on anatase TiO2

“…It has been observed that atomically rough, high energy surfaces may be morphologically unstable during reaction conditions. 9 In contrast to the closed packed faces, the high-index surfaces may undergo massive structural rearrangements ͑e.g., faceting͒ when covered by a metallic film. It is also shown that film growth mode on nanofaceted surface may be very different from a growth mode on the flat substrate.…”

Hydrogen mediated transport of Sn to Ru film surface

Electrochemical surface faceting of