Ribbons constituted by homotype bundles, i.e. made preferentially by carbon nanotubes having the same diameter have been analyzed. In particular the structural, morphological, and electronic properties have been evaluated. The measurements of the basic transport properties have allowed to fit the electronic behaviour of ribbons formed by the macroscopic aggregation of such homotype bundles to a model based on the coupling tunnelling conductance of highly aligned nanotube systems. The parallel arrangement of nanotubes with the same chirality in bundles and the resulting peculiar intertube interactions suggest a mean of controlling the LDOS by configuring different architectures. The dependence of the ribbon conductance on the temperature has been rationalized considering the presence, in a given ribbon, of both metal-like and semiconducting homotype bundles. In addition, photoconductivity properties of aggregated single-walled carbon nanotubes are also studied.

Serra, A., Manno, D., Filippo, E., Terranova Persichelli, M., Orlanducci, S., Rossi, M. (2009). Local density of states and electronic transport properties of Homotype SWCNT bundles. In IEEE Conference on Nanotechnology (pp.79-82). IEEE.

Local density of states and electronic transport properties of Homotype SWCNT bundles

Terranova Persichelli, ML;Orlanducci, S;
2009-01-01

Abstract

Ribbons constituted by homotype bundles, i.e. made preferentially by carbon nanotubes having the same diameter have been analyzed. In particular the structural, morphological, and electronic properties have been evaluated. The measurements of the basic transport properties have allowed to fit the electronic behaviour of ribbons formed by the macroscopic aggregation of such homotype bundles to a model based on the coupling tunnelling conductance of highly aligned nanotube systems. The parallel arrangement of nanotubes with the same chirality in bundles and the resulting peculiar intertube interactions suggest a mean of controlling the LDOS by configuring different architectures. The dependence of the ribbon conductance on the temperature has been rationalized considering the presence, in a given ribbon, of both metal-like and semiconducting homotype bundles. In addition, photoconductivity properties of aggregated single-walled carbon nanotubes are also studied.
IEEE-NANO 2009: 9th IEEE Conference on nanotechnology
2009
9.
IEEE
Rilevanza internazionale
contributo
2009
2009
Settore CHIM/03 - CHIMICA GENERALE E INORGANICA
English
carbon nanotubes; HRTEM; electron diffraction; STM/STS; electrical transport
Intervento a convegno
Serra, A., Manno, D., Filippo, E., Terranova Persichelli, M., Orlanducci, S., Rossi, M. (2009). Local density of states and electronic transport properties of Homotype SWCNT bundles. In IEEE Conference on Nanotechnology (pp.79-82). IEEE.
Serra, A; Manno, D; Filippo, E; Terranova Persichelli, M; Orlanducci, S; Rossi, M
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Utilizza questo identificativo per citare o creare un link a questo documento: https://hdl.handle.net/2108/18806
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