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PGI Colloquium

Properties of low-dimensional objects obtained from low-voltage experiments in an aberration-corrected TEM

Prof. Dr. Ute Kaiser, Electron Microscopy Group of Materials Science, University Ulm

19 Jul 2013 11:00


The study of properties of low-dimensional materials is currently one domain of aberration-corrected high-resolution transmission electron microscopy at lower accelerating voltages of 80keV. The susceptibility to radiation damage both challenges the interpretation of the structure at the atomic level and allows at the same time the study of the dynamics of transformations. We report atom-by-atom on the direct formation of structures such as fullerenes, nanoribbons, nanotubes and 2D-layers, which are stimulated by the electron beam and/ or by heat. Moreover, under the influence of the e-beam during its imaging process, the creation and motion of point defects, dislocations, grain boundaries and phase transitions can be observed and allow an unprecedented view into their atomic nature and properties, if combined by atomistic simulations.

Imaging the pristine structure of beam-sensitive materials, however, still remains a challenging task. We show that fullerenes inside carbon nanotubes at 20kV can stand a 2 order of magnitude higher dose compared to the case at 80kV. We report on our theoretical results of contrast calculation at voltages as low as 20kV and show first experiments obtained with the Cs-Cc corrected SALVE II machine. We show in addition that the monochromatic low-energy electron beam enables the acquisition of EELS spectra with exceptionally low background noise and report on the dispersion behavior for π and π+σ plasmons in free-standing single-layer graphene.


Prof. Dr. Stefan Blügel
Phone: +49 2461 61-4249
Fax: +49 2461 61-2850
email: s.bluegel@fz-juelich.de









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