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Literature DB >> 23039853

Oxygen intercalation under graphene on Ir(111): energetics, kinetics, and the role of graphene edges.

Elin Grånäs¹, Jan Knudsen, Ulrike A Schröder, Timm Gerber, Carsten Busse, Mohammad A Arman, Karina Schulte, Jesper N Andersen, Thomas Michely.

Abstract

Using X-ray photoemission spectroscopy (XPS) and scanning tunneling microscopy (STM) we resolve the temperature-, time-, and flake size-dependent intercalation phases of oxygen underneath graphene on Ir(111) formed upon exposure to molecular oxygen. Through the applied pressure of molecular oxygen the atomic oxygen created on the bare Ir terraces is driven underneath graphene flakes. The importance of substrate steps and of the unbinding of graphene flake edges from the substrate for the intercalation is identified. With the use of CO titration to selectively remove oxygen from the bare Ir terraces the energetics of intercalation is uncovered. Cluster decoration techniques are used as an efficient tool to visualize intercalation processes in real space.

Entities: Chemical

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Year: 2012 PMID： 23039853 DOI： 10.1021/nn303548z

Source DB: PubMed Journal: ACS Nano ISSN： 1936-0851 Impact factor: 15.881

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Cited

16 in total

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Journal: Proc Natl Acad Sci U S A Date: 2014-11-17 Impact factor: 11.205

2. Reversible Graphene decoupling by NaCl photo-dissociation.

Authors: I Palacio; L Aballe; M Foerster; D G de Oteyza; M García-Hernández; J A Martín-Gago
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Journal: Carbon N Y Date: 2017-12-27 Impact factor: 9.594

4. Comparing graphene growth on Cu(111) versus oxidized Cu(111).

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Oxygen intercalation under graphene on Ir(111): energetics, kinetics, and the role of graphene edges.

1. Graphene cover-promoted metal-catalyzed reactions.

2. Reversible Graphene decoupling by NaCl photo-dissociation.

3. Chemistry below graphene: decoupling epitaxial graphene from metals by potential-controlled electrochemical oxidation.

4. Comparing graphene growth on Cu(111) versus oxidized Cu(111).

5. Growth from behind: Intercalation-growth of two-dimensional FeO moiré structure underneath of metal-supported graphene.

6. In Situ Observations during Chemical Vapor Deposition of Hexagonal Boron Nitride on Polycrystalline Copper.

7. Restoring a nearly free-standing character of graphene on Ru(0001) by oxygen intercalation.

8. Atomically precise semiconductor--graphene and hBN interfaces by Ge intercalation.

9. Long-Term Passivation of Strongly Interacting Metals with Single-Layer Graphene.

10. Observing graphene grow: catalyst-graphene interactions during scalable graphene growth on polycrystalline copper.