Mapping the potential of graphite nanotubes with electron holography RID B-6688-2009

Mapping the potential of graphite nanotubes with electron holography RID B-6688-2009. Lin, X. & Dravid, V. Applied Physics Letters, 69(7):1014–1016, August, 1996. WOS:A1996VB47400050
doi abstract bibtex

The technique of transmission electron holography has been employed to investigate the nanoscale features of graphitic nanotubes (buckytubes) and their particulate derivatives. Reconstructed phase images of holograms offer a quantitative means to calculate the mean inner potential (MIP), thickness profiles, and three-dimensional morphology for multi-/single shell buckytubes, their ''tips'' and other enclosed structures. It is demonstrated that electron holography is also sensitive to the defect nature of termination and bending in buckytubes and their particulate derivatives. Phase sensitivity of about 0.1 rad is demonstrated for single-layer buckytube, which corresponds to change in phase due to two monolayers of carbon. (C) 1996 American Institute of Physics.

@article{lin_mapping_1996,
	title = {Mapping the potential of graphite nanotubes with electron holography {RID} {B}-6688-2009},
	volume = {69},
	issn = {0003-6951},
	doi = {10.1063/1.117970},
	abstract = {The technique of transmission electron holography has been employed to   investigate the nanoscale features of graphitic nanotubes (buckytubes)   and their particulate derivatives. Reconstructed phase images of   holograms offer a quantitative means to calculate the mean inner   potential (MIP), thickness profiles, and three-dimensional morphology   for multi-/single shell buckytubes, their ''tips'' and other enclosed   structures. It is demonstrated that electron holography is also   sensitive to the defect nature of termination and bending in buckytubes   and their particulate derivatives. Phase sensitivity of about 0.1 rad is   demonstrated for single-layer buckytube, which corresponds to change in   phase due to two monolayers of carbon. (C) 1996 American Institute of   Physics.},
	language = {English},
	number = {7},
	journal = {Applied Physics Letters},
	author = {Lin, XW and Dravid, VP},
	month = aug,
	year = {1996},
	note = {WOS:A1996VB47400050},
	keywords = {buckytubes, carbon nanotubes, growth, thickness},
	pages = {1014--1016},
}

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