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Visualising the strain distribution in suspended two-dimensional materials under local deformation

Authors/others:Elibol, KenanBayer, Bernhard C.Hummel, StefanKotakoski, JaniArgentero, GiacomoMeyer, Jannik C.
Abstract:We demonstrate the use of combined simultaneous atomic force microscopy (AFM) and laterally resolved Raman spectroscopy to study the strain distribution around highly localised deformations in suspended two-dimensional materials. Using the AFM tip as a nanoindentation probe, we induce localised strain in suspended few-layer graphene, which we adopt as a two-dimensional membrane model system. Concurrently, we visualise the strain distribution under and around the AFM tip in situ using hyperspectral Raman mapping via the strain-dependent frequency shifts of the few-layer graphene's G and 2D Raman bands. Thereby we show how the contact of the nm-sized scanning probe tip results in a two-dimensional strain field with mu m dimensions in the suspended membrane. Our combined AFM/Raman approach thus adds to the critically required instrumental toolbox towards nanoscale strain engineering of two-dimensional materials.
Number of pages:9
Date of publication:27.6.2016
Journal title:Scientific Reports
Digital Object Identifier (DOI):http://dx.doi.org/10.1038/srep28485
Publication Type:Article
Research Group Physics of Nanostructured Materials
Faculty of Physics

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