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Merck

On the sensing mechanism in carbon nanotube chemiresistors.

ACS nano (2010-12-29)
Amin Salehi-Khojin, Fatemeh Khalili-Araghi, Marcelo A Kuroda, Kevin Y Lin, Jean-Pierre Leburton, Richard I Masel
RESUMEN

There has been recent controversy whether the response seen in carbon nanotube (CNT) chemiresistors is associated with a change in the resistance of the individual nanotubes or changes in the resistance of the junctions. In this study, we carry out a network analysis to understand the relative contributions of the nanotubes and the junctions to the change in resistance of the nanotube network. We find that the dominant mode of detection in nanotube networks changes according to the conductance level (defect level) in the nanotubes. In networks with perfect nanotubes, changes in the junctions between adjacent nanotubes and junctions between the contacts and the CNTs can cause a detectable change in the resistance of the nanotube networks, while adsorption on the nanotubes has a smaller effect. In contrast, in networks with highly defective nanotubes, the changes in the resistance of the individual nanotubes cause a detectable change in the overall resistance of a chemiresistor network, while changes in the junctions have smaller effects. The combinational effect is also observed for the case in between. The results show that the sensing mechanism of a nanotube network can change according to the defect levels of the nanotubes, which may explain the apparently contradictory results in the literature.

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Sigma-Aldrich
Carbon nanotube, multi-walled, carboxylic acid functionalized, thin, extent of labeling: >8% carboxylic acid functionalized, avg. diam. × L 9.5 nm × 1.5 μm
Sigma-Aldrich
Carbon nanotube, single-walled, 98% (Semiconducting), avg. no. of layers, 1
Sigma-Aldrich
Carbon nanotube, single-walled, 98% (Metallic), avg. no. of layers, 1
Sigma-Aldrich
Carbon nanotube, single-walled, >70% (TGA), avg. no. of layers, 1
Sigma-Aldrich
Carbon nanotube, multi-walled, thin, <5% Metal Oxide(TGA)
Sigma-Aldrich
Carbon nanotube, single-walled, <3.5% Metal Catalyst, avg. no. of layers, 1