Non-stationary radiotracer method for diffusion coefficients of Cs+, Ba2+, Eu3+ tracers in Nafion-117 membrane

Apurva N. Naik; Chhavi Agarwal; Sanhita Chaudhury; A. Goswami

doi:10.1080/01496395.2016.1256324

Non-stationary radiotracer method for diffusion coefficients of Cs⁺, Ba²⁺, Eu³⁺ tracers in Nafion-117 membrane

Apurva N. Naik, Chhavi Agarwal, Sanhita Chaudhury, A. Goswami

Research output: Contribution to journal › Article › peer-review

5 Scopus citations

Abstract

The ion-exchange kinetics of A^z ⁺ _sol ⇆ Na⁺ _mem (A^z+ = Cs⁺/Ba²⁺/Eu³⁺) in Nafion-117 have been measured using non-stationary radiotracer technique for trace concentrations of A^z ⁺ ions in external solution. A method based on non-steady state Nernst–Planck approach has been developed and used to fit the experimental ion-exchange profiles to obtain the diffusion coefficients (DCs) of these ions. The DCs, thus obtained, have been found to be appreciably lower than the literature-reported self-diffusion coefficients, indicating slower rate of ion-exchange. The results show that membrane DCs of these ions are modified by bulk electrolyte solution.

Original language	English
Pages (from-to)	2379-2384
Number of pages	6
Journal	Separation Science and Technology
Volume	52
Issue number	14
DOIs	https://doi.org/10.1080/01496395.2016.1256324
State	Published - 22 Sep 2017
Externally published	Yes

Keywords

Diffusion coefficient
Nernst–Planck approach
ion-exchange kinetics
non-steady state flux
radiotracer

ASJC Scopus subject areas

General Chemistry
General Chemical Engineering
Process Chemistry and Technology
Filtration and Separation

Access to Document

10.1080/01496395.2016.1256324

Cite this

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title = "Non-stationary radiotracer method for diffusion coefficients of Cs+, Ba2+, Eu3+ tracers in Nafion-117 membrane",

abstract = "The ion-exchange kinetics of Az + sol ⇆ Na+ mem (Az+ = Cs+/Ba2+/Eu3+) in Nafion-117 have been measured using non-stationary radiotracer technique for trace concentrations of Az + ions in external solution. A method based on non-steady state Nernst–Planck approach has been developed and used to fit the experimental ion-exchange profiles to obtain the diffusion coefficients (DCs) of these ions. The DCs, thus obtained, have been found to be appreciably lower than the literature-reported self-diffusion coefficients, indicating slower rate of ion-exchange. The results show that membrane DCs of these ions are modified by bulk electrolyte solution.",

keywords = "Diffusion coefficient, Nernst–Planck approach, ion-exchange kinetics, non-steady state flux, radiotracer",

author = "Naik, {Apurva N.} and Chhavi Agarwal and Sanhita Chaudhury and A. Goswami",

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AU - Naik, Apurva N.

AU - Agarwal, Chhavi

AU - Chaudhury, Sanhita

AU - Goswami, A.

PY - 2017/9/22

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N2 - The ion-exchange kinetics of Az + sol ⇆ Na+ mem (Az+ = Cs+/Ba2+/Eu3+) in Nafion-117 have been measured using non-stationary radiotracer technique for trace concentrations of Az + ions in external solution. A method based on non-steady state Nernst–Planck approach has been developed and used to fit the experimental ion-exchange profiles to obtain the diffusion coefficients (DCs) of these ions. The DCs, thus obtained, have been found to be appreciably lower than the literature-reported self-diffusion coefficients, indicating slower rate of ion-exchange. The results show that membrane DCs of these ions are modified by bulk electrolyte solution.

AB - The ion-exchange kinetics of Az + sol ⇆ Na+ mem (Az+ = Cs+/Ba2+/Eu3+) in Nafion-117 have been measured using non-stationary radiotracer technique for trace concentrations of Az + ions in external solution. A method based on non-steady state Nernst–Planck approach has been developed and used to fit the experimental ion-exchange profiles to obtain the diffusion coefficients (DCs) of these ions. The DCs, thus obtained, have been found to be appreciably lower than the literature-reported self-diffusion coefficients, indicating slower rate of ion-exchange. The results show that membrane DCs of these ions are modified by bulk electrolyte solution.

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KW - Nernst–Planck approach

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