3D reconstruction of nanocrystalline particles from a single projection

•We present a new reconstruction scheme for 3D shape of nano particles at atomic resolution.•The new approach only needs one projection direction.•One can avoid the complicated tilting schemes and reduce the total electron dose. This paper describes an approach to retrieve the three-dimensional atom...

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Published inMicron (Oxford, England : 1993) Vol. 68; no. C; pp. 59 - 65
Main Authors Chen, F.-R., Kisielowski, C., Van Dyck, D.
Format Journal Article
LanguageEnglish
Published England Elsevier Ltd 01.01.2015
Elsevier
Subjects
3D reconstruction at atomic resolution
Calibration
High resolution TEM
Nanocrystals
Projection
Shape of nanocrystalline particle
Simulation
Three dimensional
Wave functions
Wave propagation
Wedges
High resolution TEM
Shape of nanocrystalline particle
3D reconstruction at atomic resolution
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Abstract •We present a new reconstruction scheme for 3D shape of nano particles at atomic resolution.•The new approach only needs one projection direction.•One can avoid the complicated tilting schemes and reduce the total electron dose. This paper describes an approach to retrieve the three-dimensional atomic structure of a nanocrystalline particle from the reconstructed electron exit wave function in a single projection direction. The method employs wave propagation to determine the local exit surface of each atomic column together with its mass. The exit wave in between colums is used as internal calibration so as to remove the background noise and improve the precision to the level of single atom sensitivity. The validity of the approach is tested with exit wave functions of a gold wedge reconstructed from simulated images containing different levels of noise.
AbstractList •We present a new reconstruction scheme for 3D shape of nano particles at atomic resolution.•The new approach only needs one projection direction.•One can avoid the complicated tilting schemes and reduce the total electron dose. This paper describes an approach to retrieve the three-dimensional atomic structure of a nanocrystalline particle from the reconstructed electron exit wave function in a single projection direction. The method employs wave propagation to determine the local exit surface of each atomic column together with its mass. The exit wave in between colums is used as internal calibration so as to remove the background noise and improve the precision to the level of single atom sensitivity. The validity of the approach is tested with exit wave functions of a gold wedge reconstructed from simulated images containing different levels of noise.
This paper describes an approach to retrieve the three-dimensional atomic structure of a nanocrystalline particle from the reconstructed electron exit wave function in a single projection direction. The method employs wave propagation to determine the local exit surface of each atomic column together with its mass. The exit wave in between colums is used as internal calibration so as to remove the background noise and improve the precision to the level of single atom sensitivity. The validity of the approach is tested with exit wave functions of a gold wedge reconstructed from simulated images containing different levels of noise.
Author Chen, F.-R.
Van Dyck, D.
Kisielowski, C.
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https://www.osti.gov/biblio/1250595$$D View this record in Osti.gov
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Issue C
Keywords High resolution TEM
Shape of nanocrystalline particle
3D reconstruction at atomic resolution
Language English
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Snippet •We present a new reconstruction scheme for 3D shape of nano particles at atomic resolution.•The new approach only needs one projection direction.•One can...
This paper describes an approach to retrieve the three-dimensional atomic structure of a nanocrystalline particle from the reconstructed electron exit wave...
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StartPage 59
SubjectTerms 3D reconstruction at atomic resolution
Calibration
High resolution TEM
Nanocrystals
Projection
Shape of nanocrystalline particle
Simulation
Three dimensional
Wave functions
Wave propagation
Wedges
Title 3D reconstruction of nanocrystalline particles from a single projection
URI https://dx.doi.org/10.1016/j.micron.2014.08.009
https://www.ncbi.nlm.nih.gov/pubmed/25306935
https://search.proquest.com/docview/1635003208
https://search.proquest.com/docview/1800443113
https://www.osti.gov/biblio/1250595
Volume 68
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