Longitudinal cutting of pure and doped carbon nanotubes to form graphitic nanoribbons using metal clusters as nanoscalpels

Ana Laura Elias; Andrés R. Botello-Méndez; David Meneses-Rodríguez; Viviana Jehová González; Daniel Ramírez-González; Lijie Ci; Emilio Muñoz-Sandoval; Pulickel M. Ajayan; Humberto Terrones; Mauricio Terrones

doi:10.1021/nl901631z

Longitudinal cutting of pure and doped carbon nanotubes to form graphitic nanoribbons using metal clusters as nanoscalpels

Ana Laura Elias, Andrés R. Botello-Méndez, David Meneses-Rodríguez, Viviana Jehová González, Daniel Ramírez-González, Lijie Ci, Emilio Muñoz-Sandoval, Pulickel M. Ajayan, Humberto Terrones, Mauricio Terrones^*

^*Corresponding author for this work

Research output: Contribution to journal › Article › Academic › peer-review

Abstract

We report the use of transition metal nanoparticles (Ni or Co) to longitudinally cut open multiwalled carbon nanotubes in order to create graphitic nanoribbons. The process consists of catalytic hydrogenation of carbon, in which the metal particles cut sp² hybridized carbon atoms along nanotubes that results in the liberation of hydrocarbon species. Observations reveal the presence of unzipped nanotubes that were cut by the nanoparticles. We also report the presence of partially open carbon nanotubes, which have been predicted to have novel magnetoresistance properties. ¹ The nanoribbons produced are typically 15-40 nm wide and 100-500 nm long. This method offers an alternative approach for making graphene nanoribbons, compared to the chemical methods reported recently in the literature.

Original language	English
Pages (from-to)	366-372
Number of pages	7
Journal	Nano Letters
Volume	10
Issue number	2
DOIs	https://doi.org/10.1021/nl901631z
Publication status	Published - 10 Feb 2010
Externally published	Yes

Keywords

Carbon nanoribbons
Catalytic
Cutting
Graphene
Hydrogenation
Nitrogen-doped carbon nanotubes

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10.1021/nl901631z

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Elias, A. L., Botello-Méndez, A. R., Meneses-Rodríguez, D., González, V. J., Ramírez-González, D., Ci, L., Muñoz-Sandoval, E., Ajayan, P. M., Terrones, H., & Terrones, M. (2010). Longitudinal cutting of pure and doped carbon nanotubes to form graphitic nanoribbons using metal clusters as nanoscalpels. Nano Letters, 10(2), 366-372. https://doi.org/10.1021/nl901631z

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title = "Longitudinal cutting of pure and doped carbon nanotubes to form graphitic nanoribbons using metal clusters as nanoscalpels",

abstract = "We report the use of transition metal nanoparticles (Ni or Co) to longitudinally cut open multiwalled carbon nanotubes in order to create graphitic nanoribbons. The process consists of catalytic hydrogenation of carbon, in which the metal particles cut sp2 hybridized carbon atoms along nanotubes that results in the liberation of hydrocarbon species. Observations reveal the presence of unzipped nanotubes that were cut by the nanoparticles. We also report the presence of partially open carbon nanotubes, which have been predicted to have novel magnetoresistance properties. 1 The nanoribbons produced are typically 15-40 nm wide and 100-500 nm long. This method offers an alternative approach for making graphene nanoribbons, compared to the chemical methods reported recently in the literature.",

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doi = "10.1021/nl901631z",

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AU - Elias, Ana Laura

AU - Botello-Méndez, Andrés R.

AU - Meneses-Rodríguez, David

AU - González, Viviana Jehová

AU - Ramírez-González, Daniel

AU - Ci, Lijie

AU - Muñoz-Sandoval, Emilio

AU - Ajayan, Pulickel M.

AU - Terrones, Humberto

AU - Terrones, Mauricio

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AB - We report the use of transition metal nanoparticles (Ni or Co) to longitudinally cut open multiwalled carbon nanotubes in order to create graphitic nanoribbons. The process consists of catalytic hydrogenation of carbon, in which the metal particles cut sp2 hybridized carbon atoms along nanotubes that results in the liberation of hydrocarbon species. Observations reveal the presence of unzipped nanotubes that were cut by the nanoparticles. We also report the presence of partially open carbon nanotubes, which have been predicted to have novel magnetoresistance properties. 1 The nanoribbons produced are typically 15-40 nm wide and 100-500 nm long. This method offers an alternative approach for making graphene nanoribbons, compared to the chemical methods reported recently in the literature.

KW - Carbon nanoribbons

KW - Catalytic

KW - Cutting

KW - Graphene

KW - Hydrogenation

KW - Nitrogen-doped carbon nanotubes

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Longitudinal cutting of pure and doped carbon nanotubes to form graphitic nanoribbons using metal clusters as nanoscalpels

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Keywords

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