Publication detail
Direct visualization of local deformations in suspended few-layer graphene membranes by coupled in situ atomic force and scanning electron microscopy
Hummel, S. Elibol, K. Zhang, DS. Sampathkumar, K. Frank, O. Eder, D. Schwalb, C. Kotakoski, J. Meyer, JC. Bayer, BC.
Original Title
Direct visualization of local deformations in suspended few-layer graphene membranes by coupled in situ atomic force and scanning electron microscopy
Type
journal article in Web of Science
Language
English
Original Abstract
Suspended membranes of two-dimensional (2D) materials are of interest for many applications. Much of their characterization relies on scanning probe microscopy (SPM) techniques such as atomic force microscopy (AFM) or scanning tunneling microscopy (STM). Unlike rigid samples, the suspended atomically thin 2D membranes are, however, flexible and do not remain mechanically undisturbed during SPM measurements. Local deformations can occur at the location of the scanning tip and thus result in measurements that misrepresent actual membrane topography and nanomechanical properties. Exact levels of such SPM tip-induced deformations in 2D membranes remain largely unknown, as they are to date only indirectly accessible via dual probe microscope concepts that either are not mechanically independent (e.g., SPM-SPM setups resulting in complicated imaging crosstalk) or suffer from intrinsically limited lateral resolution (e.g., optical far-field techniques as the second probe). Circumventing these shortcomings, we here demonstrate that by coupling an AFM with a scanning electron microscope (SEM) as the second, mechanically independent probe, we can directly and in situ visualize by SEM at high resolution 2D membrane deformations that result from controllable AFM tip manipulations in the nN range. Employing few-layer graphene as model membranes, we discuss the experimental realization of our coupled in situ AFM-SEM approach.
Keywords
Graphene, deformation, AFM, SEM
Authors
Hummel, S.; Elibol, K.; Zhang, DS.; Sampathkumar, K.; Frank, O.; Eder, D.; Schwalb, C.; Kotakoski, J.; Meyer, JC.; Bayer, BC.
Released
8. 3. 2021
Publisher
AMER INST PHYSICS
Location
MELVILLE
ISBN
0003-6951
Periodical
Applied Physics Letters
Year of study
118
Number
10
State
United States of America
Pages from
1
Pages to
7
Pages count
7
URL
BibTex
@article{BUT171210,
author="Hummel, S. and Elibol, K. and Zhang, DS. and Sampathkumar, K. and Frank, O. and Eder, D. and Schwalb, C. and Kotakoski, J. and Meyer, JC. and Bayer, BC.",
title="Direct visualization of local deformations in suspended few-layer graphene membranes by coupled in situ atomic force and scanning electron microscopy",
journal="Applied Physics Letters",
year="2021",
volume="118",
number="10",
pages="1--7",
doi="10.1063/5.0040522",
issn="0003-6951",
url="http://aip.scitation.org/doi/10.1063/5.0040522"
}