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Literature DB >> 11497791

Oxygen dissociation at Pt steps.

P Gambardella¹, Z Sljivancanin, B Hammer, M Blanc, K Kuhnke, K Kern.

Abstract

Using scanning tunneling microscopy, thermal energy atom scattering, and density functional theory we have characterized O (2) dissociation on Pt(111) stepped surfaces at the atomic scale. The most reactive site is at the top of the Pt steps. In both the molecular precursor state (MPS) and the transition state (TS), the O (2) has its axis aligned parallel to the step edge. Controlled step decoration with Ag monatomic chains was used to locally tune the reactivity of Pt step sites. The enhanced reactivity at the Pt step sites is not caused by a decrease of the local dissociation barriers from the MPS but is related to a stabilization of both the MPS and TS.

Entities: Chemical Disease

Year: 2001 PMID： 11497791 DOI： 10.1103/PhysRevLett.87.056103

Source DB: PubMed Journal: Phys Rev Lett ISSN： 0031-9007 Impact factor: 9.161

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Cited

2 in total

1. Controlling a spillover pathway with the molecular cork effect.

Authors: Matthew D Marcinkowski; April D Jewell; Michail Stamatakis; Matthew B Boucher; Emily A Lewis; Colin J Murphy; Georgios Kyriakou; E Charles H Sykes
Journal: Nat Mater Date: 2013-04-21 Impact factor: 43.841

2. Steps on Pt stereodynamically filter sticking of O₂.

Authors: Kun Cao; Richard van Lent; Aart W Kleyn; Mitsunori Kurahashi; Ludo B F Juurlink
Journal: Proc Natl Acad Sci U S A Date: 2019-05-29 Impact factor: 11.205

2 in total

Oxygen dissociation at Pt steps.

1. Controlling a spillover pathway with the molecular cork effect.

2. Steps on Pt stereodynamically filter sticking of O2.

2. Steps on Pt stereodynamically filter sticking of O₂.