2000
DOI: 10.1126/science.287.5459.1801
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Extreme Oxygen Sensitivity of Electronic Properties of Carbon Nanotubes

Abstract: The electronic properties of single-walled carbon nanotubes are shown here to be extremely sensitive to the chemical environment. Exposure to air or oxygen dramatically influences the nanotubes' electrical resistance, thermoelectric power, and local density of states, as determined by transport measurements and scanning tunneling spectroscopy. These electronic parameters can be reversibly "tuned" by surprisingly small concentrations of adsorbed gases, and an apparently semiconducting nanotube can be converted … Show more

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Cited by 2,821 publications
(1,821 citation statements)
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“…540 eV was also observed for both N-graphene and C-graphene, 29,30 possibly due to the incorporation physically adsorbed oxygen as in the case with CNTs. 28,31 Thus, the higher O 1s peak relative to the corresponding C 1s peak seen for the N-graphene than that of the C-graphene suggests a stronger O 2 adsorption on the former, an additional advantage as the ORR electrode. The absence of any Ni peak in the XPS spectrum for the N-graphene clearly indicates that the Ni catalyst residues, if any, have been completely removed by the HCl solution.…”
mentioning
confidence: 99%
“…540 eV was also observed for both N-graphene and C-graphene, 29,30 possibly due to the incorporation physically adsorbed oxygen as in the case with CNTs. 28,31 Thus, the higher O 1s peak relative to the corresponding C 1s peak seen for the N-graphene than that of the C-graphene suggests a stronger O 2 adsorption on the former, an additional advantage as the ORR electrode. The absence of any Ni peak in the XPS spectrum for the N-graphene clearly indicates that the Ni catalyst residues, if any, have been completely removed by the HCl solution.…”
mentioning
confidence: 99%
“…The relative contribution of each component is a function of network thickness: with VRH dominating the thinnest networks and metallic contribution increasing with thickness [16,17]. The use of enriched metallic SWNT populations and purification through ultracentrifugation inevitably result in good electrical performance of SWNT networks through minimising both the semiconductor-metal junction density and disorder [7]. The high inter-bundle contact resistance is the main obstacle to enhancement of the electrical performance of SWNT networks [5,6].…”
Section: Introductionmentioning
confidence: 99%
“…Handling in air also results in significant modification of electrical conductivity through exposure to oxygen and atmospheric humidity [7,8] through donor-or acceptor-like charge transfer from weakly absorbed species which affects the position of the Fermi energy and hence the conductivity of the network. The absorption of gaseous species on the surface or inside of a nanotube bundle is stronger than that on an individual SWNT but is reversible [8,9].…”
Section: Introductionmentioning
confidence: 99%
“…For example, R is reduced only by 0.265% at E = 0.08 mV/Å and by 0.355% at 0.10 mV/Å. Experiments however were carried out in ambient condition and F C may, to some extent, be compromised by intercalated O 2 molecules [15]. We have tested D 2 in vacuum at 300 K (a) and 77 K (b), and recorded data is compared with Figure 5(b) ((c), Table 3).…”
Section: Resultsmentioning
confidence: 99%