Quantifying transmission electron microscopy irradiation effects using two-dimensional materials

Recent advances in transmission electron microscopy instrumentation have made it an indispensable technique for atomic-scale materials characterization. Concurrently, the availability of 2D materials has provided ideal samples in which each atom or vacancy can be resolved. New possibilities for the...

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Published inNature reviews physics Vol. 1; no. 6; pp. 397 - 405
Main Authors Susi, Toma, Meyer, Jannik C, Kotakoski, Jani
Format Journal Article
LanguageEnglish
Published London Nature Publishing Group 01.06.2019
Subjects
Atoms & subatomic particles
Electron irradiation
Electrons
Energy
Transmission electron microscopy
Two dimensional materials
Velocity
Online AccessGet full text
ISSN2522-5820
DOI10.1038/s42254-019-0058-y

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Abstract Recent advances in transmission electron microscopy instrumentation have made it an indispensable technique for atomic-scale materials characterization. Concurrently, the availability of 2D materials has provided ideal samples in which each atom or vacancy can be resolved. New possibilities for the application of focused electron irradiation are being revealed, namely, the controlled manipulation of structures and even individual atoms. Evaluating the full range of possibilities for this method requires precise understanding of the electron–matter interactions, which is becoming feasible owing to advances in both experimental techniques and theoretical models. In this Perspective, we summarize the state of knowledge of the underlying physical processes on the basis of the latest results on 2D materials, with a focus on the physical principles of electron–matter interactions rather than material-specific irradiation-induced defects. Two-dimensional materials could provide the experimental guidance for the development of quantitative models applicable to a wide range of materials.Atomically precise measurements in 2D materials can be used to quantify the effects of energetic electron irradiation. In this Perspective, we discuss how understanding of electron–matter interactions can help to stimulate the development of quantitative models that are generalizable to a wide range of materials.
AbstractList Recent advances in transmission electron microscopy instrumentation have made it an indispensable technique for atomic-scale materials characterization. Concurrently, the availability of 2D materials has provided ideal samples in which each atom or vacancy can be resolved. New possibilities for the application of focused electron irradiation are being revealed, namely, the controlled manipulation of structures and even individual atoms. Evaluating the full range of possibilities for this method requires precise understanding of the electron–matter interactions, which is becoming feasible owing to advances in both experimental techniques and theoretical models. In this Perspective, we summarize the state of knowledge of the underlying physical processes on the basis of the latest results on 2D materials, with a focus on the physical principles of electron–matter interactions rather than material-specific irradiation-induced defects. Two-dimensional materials could provide the experimental guidance for the development of quantitative models applicable to a wide range of materials.Atomically precise measurements in 2D materials can be used to quantify the effects of energetic electron irradiation. In this Perspective, we discuss how understanding of electron–matter interactions can help to stimulate the development of quantitative models that are generalizable to a wide range of materials.
Author Susi, Toma
Meyer, Jannik C
Kotakoski, Jani
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SubjectTerms Atoms & subatomic particles
Electron irradiation
Electrons
Energy
Transmission electron microscopy
Two dimensional materials
Velocity
Title Quantifying transmission electron microscopy irradiation effects using two-dimensional materials
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