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2D Noble Gas Crystals Encapsulated in Few-layer Graphene

Published online by Cambridge University Press:  30 July 2020

Manuel Längle
Affiliation:
University of Vienna, Vienna, Wien, Austria
Kenichiro Mizohata
Affiliation:
University of Helsinki, Helsinki, Uusimaa, Finland
E. Harriet Åhlgren
Affiliation:
University of Vienna, Vienna, Wien, Austria
Alberto Trentino
Affiliation:
University of Vienna, Vienna, Wien, Austria
Kimmo Mustonen
Affiliation:
University of Vienna, Vienna, Wien, Austria
Jani Kotakoski
Affiliation:
University of Vienna, Vienna, Wien, Austria
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Abstract

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Type
New Frontiers in Electron Microscopy of Two-dimensional Materials
Copyright
Copyright © Microscopy Society of America 2020

References

Mirzayev, R. et al. Buckyball sandwiches 3, e1700176.Google Scholar
Ye, X. et al. Single-particle mapping of nonequilibrium nanocrystal transformations 354, 874877.Google Scholar
Yuk, J. M. et al. High-resolution EM of colloidal nanocrystal growth using graphene liquid cells 36, 6164.Google Scholar
Stolyarova, E. et al. Observation of graphene bubbles and effective mass transport under graphene films 9, 332337.Google Scholar
Bunch, J. S. et al. Impermeable atomic membranes from graphene sheets 8, 24582462.Google Scholar
Vasu, K. S. et al. Van der waals pressure and its effect on trapped interlayer molecules 7, 12168.Google Scholar
Kühne, M. et al. Ultrafast lithium diffusion in bilayer graphene 12, 895900.Google Scholar
Kühne, M. et al. Reversible superdense ordering of lithium between two graphene sheets 564, 234239.Google Scholar
Herbig, C. et al. Interfacial carbon nanoplatelet formation by ion irradiation of graphene on iridium(111) 8, 1220812218.Google Scholar
Herbig, C. et al. Comment on “interfacial carbon nanoplatelet formation by ion irradiation of graphene on iridium(111)9, 46644665.Google Scholar
Herbig, C. et al. Xe irradiation of graphene on ir(111): From trapping to blistering 92, 085429.Google Scholar
Herbig, C., Ahlgren, E. H. & Michely, T. Blister-free ion beam patterning of supported graphene 28, 055304.Google Scholar
Yoo, S. et al. Growth kinetics of kr nano structures encapsulated by graphene 29, 385601.Google Scholar
Krivanek, O. L. et al. Atom-by-atom structural and chemical analysis by annular dark-field electron microscopy 464, 571574.Google Scholar
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