Unzipped and Defective Nanotubes: Rolling up Graphene and Unrolling Tubes

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L.C. acknowledges helpful discussions with J.I. Cerda. This work has been partially supported by the Spanish DGES under grants MAT2006-06242, MAT2006-03741 and FIS2007-66711-C02-001 and Spanish CSIC under grant PI 200860I048. W.J. and M.P. acknowledge financial support from Polish LFPPI.

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Unzipped and Defective Nanotubes: Rolling up Graphene and Unrolling Tubes

Publicado en:Acta Physica Polonica a. 118 (3): 433-441 - 2010-09-01 118(3), DOI: 10.12693/APhysPolA.118.433

Autores: Chico, L; Santos, H; Ayuela, A; Jaskolski, W; Pelc, M; Brey, L

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CSIC, Inst Ciencia Mat Madrid, E-28049 Madrid, Spain - Autor o Coautor

Ctr Fis Mat CPM CSIC UPV EHU, Dept Fis Mat, Fac Quim, Donostia San Sebastian 20080, Spain - Autor o Coautor

DIPC, Donostia San Sebastian 20080, Spain - Autor o Coautor

Inst Fizyki UMK, PL-87100 Torun, Poland - Autor o Coautor

Resumen

The properties of carbon nanotubes can be dramatically altered by the presence of defects. In this work we address the properties of two different kinds of defective nanotubes: junctions of achiral tubes with topological defects and partially unzipped carbon nanotubes. In particular, we begin by focussing on the interface states in carbon nanotube junctions between achiral tubes. We show that their number and energies can be derived by applying the Born von Karman boundary condition to an interface between armchair- and zigzag-terminated semi-infinite graphene layers. We show that these interface states, which were thought to be due to the presence of topological defects, are in fact related to the graphene zigzag edge states. Secondly, we study partially unzipped carbon nanotubes, which can be considered as the junction of a carbon nanotube and a graphene nanoribbon, which has edge features giving rise to novel properties. Carbon nanoribbons act as transparent contacts for nanotubes and viceversa, yielding a high conductance. At certain energies, nanoribbons behave as valley filters for carbon nanotubes; this holds considering electron electron interaction effects. Furthermore, the application of a magnetic field turns the system conducting, with a 100% magnetoresistance. These novel structures may open a way for new carbon-based devices.

Palabras clave

Carbon nanotubesConductanceElectronic-propertiesFormIntramolecular junctionsNanoribbonsRibbonsSheetsTransport-properties

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El trabajo ha sido publicado en la revista Acta Physica Polonica a, y aunque la revista se encuentra clasificada en el cuartil Q4 (Agencia WoS (JCR)), su enfoque regional y su especialización en Physics, Multidisciplinary, le otorgan un reconocimiento lo suficientemente significativo en un nicho concreto del conocimiento científico a nivel internacional.

2025-05-23:

WoS: 9
Scopus: 10
OpenCitations: 9

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Este trabajo se ha realizado con colaboración internacional, concretamente con investigadores de: Poland.

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Unzipped and Defective Nanotubes: Rolling up Graphene and Unrolling Tubes

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