X-ray diffraction as a tool for the determination of the structure of double-walled carbon nanotube batches | Zendy

Julien Cambedouzou | Zendy; M. Chorro | Zendy; R. Almairac | Zendy; L. Noé | Zendy; Emmanuel Flahaut | Zendy; S. Rols | Zendy; Marc Monthioux | Zendy; Pascale Launois | Zendy

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X-ray diffraction as a tool for the determination of the structure of double-walled carbon nanotube batches

Author(s) -

Julien Cambedouzou,

M. Chorro,

R. Almairac,

L. Noé,

Emmanuel Flahaut,

S. Rols,

Marc Monthioux,

Pascale Launois

Publication year - 2009

Publication title -

physical review b

Language(s) - English

Resource type - Journals

eISSN - 1538-4489

pISSN - 1098-0121

DOI - 10.1103/physrevb.79.195423

Subject(s) - diffraction , formalism (music) , carbon nanotube , materials science , chemical vapor deposition , annealing (glass) , x ray crystallography , nanotube , nanotechnology , molecular physics , optics , composite material , physics , art , musical , visual arts

The average structure of double-walled carbon nanotube DWCNT samples can be determined by x-ray diffraction XRD. We present a formalism that allows XRD patterns of DWCNTs to be simulated and we give researchers the tools needed to perform these calculations themselves. Simulations of XRD patterns within this formalism are compared to experimental data obtained on two different DWCNT samples, produced by chemical vapor deposition or by peapod conversion i.e., high-temperature peapod annealing. For each sample, we are able to determine structural aspects such as the number of walls, the diameter distribution of inner and outer tubes, the intertube spacing, and the bundled structure

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