Condensed Matter Physics (Dec 2017)

Charge storage in nanotubes: the case of a 2-1 electrolyte

  • W. Schmickler,
  • D. Henderson

DOI
https://doi.org/10.5488/CMP.20.33004
Journal volume & issue
Vol. 20, no. 3
p. 33004

Abstract

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We consider a 2-1 electrolyte in contact with a narrow nanotube, which only allows one-dimensional storage along the axis. The asymmetry does not allow an a priori definition of the potential of zero charge; instead, the natural reference is the electrode potential at which both ions have the same electrochemical potential; the value of the latter can serve as a measure of ionophilicity. Near this potential, ionophobic tubes are filled with a dilute gas, ionophilic tubes are filled with a one-dimensional solid containing about the same number of the divalent ions and the monovalent counterions, a structure that is stabilized by a strong screening of the Coulomb interaction by an induced counter charge on the walls of the tube. The filling of the tube by the application of an electrode potential exhibits a complicated pattern of interactions between the two kinds of ions.

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