2011
DOI: 10.1063/1.3524310
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Synthetic cation-selective nanotube: Permeant cations chaperoned by anions

Abstract: The ability to design ion-selective, synthetic nanotubes which mimic biological ion channels may have significant implications for the future treatment of bacteria, diseases, and as ultrasensitive biosensors. We present the design of a synthetic nanotube made from carbon atoms that selectively allows monovalent cations to move across and rejects all anions. The cation-selective nanotube mimics some of the salient properties of biological ion channels. Before practical nanodevices are successfully fabricated it… Show more

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Cited by 12 publications
(12 citation statements)
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“…Such selectivity can be exploited in the development of filtration/desalination processes and may have general implications for biological ion channels. [79][80][81][82][83][84] It is interesting to note the presence of ions also influenced the critical distance for wetting/dewetting of the interior region. The most pronounced difference (relative to pure water) was observed in the 3 M NaI solution in which the critical distance increased from 10.5 to 10.8 A ˚.…”
Section: Discussionmentioning
confidence: 99%
“…Such selectivity can be exploited in the development of filtration/desalination processes and may have general implications for biological ion channels. [79][80][81][82][83][84] It is interesting to note the presence of ions also influenced the critical distance for wetting/dewetting of the interior region. The most pronounced difference (relative to pure water) was observed in the 3 M NaI solution in which the critical distance increased from 10.5 to 10.8 A ˚.…”
Section: Discussionmentioning
confidence: 99%
“…The second critical assumption of our approach is that the rates of the water flux through the pore are estimated for the flow with no interactions with the pore wall (e.g., in a pristine carbon nanotube). The structure of PTP is not defined, but according to its weak ion selectivity, we can assume that the walls of the PTP would be polar (Hilder et al, 2010(Hilder et al, , 2011a(Hilder et al, , 2011b. Thus, in our estimates, we should take into account that water flux might be considerably slower than in an uncharged pore.…”
Section: Calculation Of Water Flux Rates Based On Shrinkage and Estimmentioning
confidence: 99%
“…3b that the maximum Ipa for DA is attained at pH 7.0. This is due to the complete ionization of the carboxyl group on the Rhodamine B film [85] which leads to the effective electrostatic attraction of the DA cation towards the electrode surface. This result helps us to maintain the physiological condition throughout our studies.…”
Section: Electrochemical Behavior Of Da At Poly(rhodamine B) Modifiedmentioning
confidence: 99%