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Literature DB >> 23003063

Accurate measurement of electron beam induced displacement cross sections for single-layer graphene.

Jannik C Meyer¹, Franz Eder, Simon Kurasch, Viera Skakalova, Jani Kotakoski, Hye Jin Park, Siegmar Roth, Andrey Chuvilin, Sören Eyhusen, Gerd Benner, Arkady V Krasheninnikov, Ute Kaiser.

Abstract

We present an accurate measurement and a quantitative analysis of electron-beam-induced displacements of carbon atoms in single-layer graphene. We directly measure the atomic displacement ("knock-on") cross section by counting the lost atoms as a function of the electron-beam energy and applied dose. Further, we separate knock-on damage (originating from the collision of the beam electrons with the nucleus of the target atom) from other radiation damage mechanisms (e.g., ionization damage or chemical etching) by the comparison of ordinary (12C) and heavy (13C) graphene. Our analysis shows that a static lattice approximation is not sufficient to describe knock-on damage in this material, while a very good agreement between calculated and experimental cross sections is obtained if lattice vibrations are taken into account.

Entities: Chemical Disease

Year: 2012 PMID： 23003063 DOI： 10.1103/PhysRevLett.108.196102

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

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Cited

48 in total

1. Polycrystalline graphene and other two-dimensional materials.

Authors: Oleg V Yazyev; Yong P Chen
Journal: Nat Nanotechnol Date: 2014-08-17 Impact factor: 39.213

2. Square ice in graphene nanocapillaries.

Authors: G Algara-Siller; O Lehtinen; F C Wang; R R Nair; U Kaiser; H A Wu; A K Geim; I V Grigorieva
Journal: Nature Date: 2015-03-26 Impact factor: 49.962

3. Direct visualization of reversible dynamics in a Si₆ cluster embedded in a graphene pore.

Authors: Jaekwang Lee; Wu Zhou; Stephen J Pennycook; Juan-Carlos Idrobo; Sokrates T Pantelides
Journal: Nat Commun Date: 2013 Impact factor: 14.919

4. Assessing and ameliorating the influence of the electron beam on carbon nanotube oxidation in environmental transmission electron microscopy.

Authors: Ai Leen Koh; Robert Sinclair
Journal: Ultramicroscopy Date: 2016-12-10 Impact factor: 2.689

Accurate measurement of electron beam induced displacement cross sections for single-layer graphene.

1. Polycrystalline graphene and other two-dimensional materials.

2. Square ice in graphene nanocapillaries.

3. Direct visualization of reversible dynamics in a Si₆ cluster embedded in a graphene pore.

4. Assessing and ameliorating the influence of the electron beam on carbon nanotube oxidation in environmental transmission electron microscopy.

5. Dislocations in bilayer graphene.

6. Analysis of electron beam damage of exfoliated MoS₂ sheets and quantitative HAADF-STEM imaging.

7. Spatial control of defect creation in graphene at the nanoscale.

8. Raman Shifts in Electron-Irradiated Monolayer MoS2.

9. Atomic lattice disorder in charge-density-wave phases of exfoliated dichalcogenides (1T-TaS2).

10. Dark-field transmission electron microscopy and the Debye-Waller factor of graphene.