Voltage-activated transport of ions through single-walled carbon nanotubes

Abstract : Ionic transport through single-walled carbon nanotubes (SWCNTs) is promising for many applications but remains both experimentally challenging and highly debated. Here we report ionic current measurements through microfluidic devices containing one or several SWCNTs of diameter of 1.2 to 2 nm unexpectedly showing a linear or a voltage-activated I-V dependence. Transition from an activated to a linear behavior, and stochastic fluctuations between different current levels were notably observed. For linear devices, the high conductance confirmed with different chloride salts indicates that the nanotube/water interface exhibits both a high surface charge density and flow slippage, in agreement with previous reports. In addition, the sublinear dependence of the conductance on the salt concentration points toward a charge-regulation mechanism. Theoretical modelling and computer simulations show that the voltage-activated behavior can be accounted for by the presence of local energy barriers along or at the ends of the nanotube. Raman spectroscopy reveals strain fluctuations along the tubes induced by the polymer matrix but displays insufficient doping or variations of doping to account for the apparent surface charge density and energy barriers revealed by ion transport measurements. Finally, experimental evidence points toward environment-sensitive chemical moieties at the nanotube mouths as being responsible for the energy barriers causing the activated transport of ions through SWCNTs within this diameter range.
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Article dans une revue
Nanoscale, Royal Society of Chemistry, 2017, 9 (33), pp.11976-11986. 〈10.1039/c7nr02976d〉
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Soumis le : mardi 12 septembre 2017 - 15:15:57
Dernière modification le : jeudi 14 septembre 2017 - 16:19:48

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Khadija Yazda, Said Tahir, Thierry Michel, Bastien Loubet, Manoel Manghi, et al.. Voltage-activated transport of ions through single-walled carbon nanotubes. Nanoscale, Royal Society of Chemistry, 2017, 9 (33), pp.11976-11986. 〈10.1039/c7nr02976d〉. 〈hal-01586169〉

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