Bachmatiuk A, Dianat A, Ortmann F, Quang HT, Cichocka MO, Gonzalez-Martinez I, Fu L, Rellinghaus B, Eckert J, Cuniberti G, Ruemmeli MH (2014)
Publication Type: Journal article
Publication year: 2014
Book Volume: 26
Pages Range: 4998-5003
Journal Issue: 17
DOI: 10.1021/cm502043x
Graphene already has numerous applications in transmission electron microscopy. Here, we extend its application in electron microscopy by demonstrating its potential to stop electron induced desorption in nonconducting samples, where in essence charge build-up leads to surface atom desorption. Graphene films provide a conduction pathway to prevent charge build-up and do not interfere with the imaging process allowing the direct imaging of specimens sensitive to electron induced desorption. We also show that small graphene flakes on the surface of MgO transform to fullerenes or hemispherical fullerenes. The hemispherical fullerenes anchor to the MgO surface and are of particular interest as they suggest it should be possible to nucleate single walled carbon nanotubes on the surface of oxide supports without the need of a catalyst particle.
APA:
Bachmatiuk, A., Dianat, A., Ortmann, F., Quang, H.T., Cichocka, M.O., Gonzalez-Martinez, I.,... Ruemmeli, M.H. (2014). Graphene coatings for the mitigation of electron stimulated desorption and fullerene cap formation. Chemistry of Materials, 26(17), 4998-5003. https://doi.org/10.1021/cm502043x
MLA:
Bachmatiuk, Alicja, et al. "Graphene coatings for the mitigation of electron stimulated desorption and fullerene cap formation." Chemistry of Materials 26.17 (2014): 4998-5003.
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