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Literature DB >> 19923656

'All-inclusive' imaging of the rutile TiO(2)(110) surface using NC-AFM.

Ralf Bechstein¹, César González, Jens Schütte, Pavel Jelínek, Rubén Pérez, Angelika Kühnle.

Abstract

Non-contact atomic force microscopy (NC-AFM) at true atomic resolution is used to investigate the (110) surface of rutile TiO(2). We are able to simultaneously resolve both bridging oxygen and titanium atoms of this prototypical oxide surface. Furthermore, the characteristic defect species, i.e. bridging oxygen vacancies, single and double hydroxyls as well as subsurface defects, are identified in the very same frame. We employ density functional theory (DFT) calculations to obtain a comprehensive understanding of the relation between the tip apex structure and the observed image contrast. Our results provide insight into the physical mechanisms behind atomic-scale contrast, indicating that electrostatic interaction can lead to a far more complex contrast than commonly assumed.

Entities: Chemical

Year: 2009 PMID： 19923656 DOI： 10.1088/0957-4484/20/50/505703

Source DB: PubMed Journal: Nanotechnology ISSN： 0957-4484 Impact factor: 3.874

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Cited

6 in total

1. Probing three-dimensional surface force fields with atomic resolution: Measurement strategies, limitations, and artifact reduction.

Authors: Mehmet Z Baykara; Omur E Dagdeviren; Todd C Schwendemann; Harry Mönig; Eric I Altman; Udo D Schwarz
Journal: Beilstein J Nanotechnol Date: 2012-09-11 Impact factor: 3.649

2. Atomic species identification at the (101) anatase surface by simultaneous scanning tunnelling and atomic force microscopy.

Authors: Oleksandr Stetsovych; Milica Todorović; Tomoko K Shimizu; César Moreno; James William Ryan; Carmen Pérez León; Keisuke Sagisaka; Emilio Palomares; Vladimír Matolín; Daisuke Fujita; Ruben Perez; Oscar Custance
Journal: Nat Commun Date: 2015-06-29 Impact factor: 14.919

'All-inclusive' imaging of the rutile TiO(2)(110) surface using NC-AFM.

1. Probing three-dimensional surface force fields with atomic resolution: Measurement strategies, limitations, and artifact reduction.

2. Atomic species identification at the (101) anatase surface by simultaneous scanning tunnelling and atomic force microscopy.

3. Identifying tips for intramolecular NC-AFM imaging via in situ fingerprinting.

4. Anchoring of a dye precursor on NiO(001) studied by non-contact atomic force microscopy.

5. The role of surface reduction in the formation of Ti interstitials.

6. A full monolayer of superoxide: oxygen activation on the unmodified Ca₃Ru₂O₇(001) surface.

'All-inclusive' imaging of the rutile TiO(2)(110) surface using NC-AFM.

1. Probing three-dimensional surface force fields with atomic resolution: Measurement strategies, limitations, and artifact reduction.

2. Atomic species identification at the (101) anatase surface by simultaneous scanning tunnelling and atomic force microscopy.

3. Identifying tips for intramolecular NC-AFM imaging via in situ fingerprinting.

4. Anchoring of a dye precursor on NiO(001) studied by non-contact atomic force microscopy.

5. The role of surface reduction in the formation of Ti interstitials.

6. A full monolayer of superoxide: oxygen activation on the unmodified Ca3Ru2O7(001) surface.

6. A full monolayer of superoxide: oxygen activation on the unmodified Ca₃Ru₂O₇(001) surface.