Journal article

An approximate theoretical treatment of ion transfer processes at asymmetric microscopic and nanoscopic liquid-liquid interfaces: Single and double potential pulse techniques

Abstract:: Simple theory for the electrochemical study of reversible ion transfer processes at micro- and nano-liquid|liquid interfaces supported on a capillary is presented. Closed-form expressions are obtained for the response in normal pulse and differential double pulse voltammetries, which describe adequately the particular behaviour of these systems due to the 'asymmetric' ion diffusion inside and outside the capillary. The use of different potential pulse techniques for the determination of the formal potential and diffusion coefficients of the ion is examined. For this, very simple analytical expressions are presented for the half-wave potential in NPV and the peak potential in DDPV. © 2014 Published by Elsevier B.V.

Publication status:: Published

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APA Style

Molina, A., Laborda, E., & Compton, R. (2014). An approximate theoretical treatment of ion transfer processes at asymmetric microscopic and nanoscopic liquid-liquid interfaces: Single and double potential pulse techniques. CHEMICAL PHYSICS LETTERS, 597, 126–133.

MLA Style

Molina, A., et al. “An Approximate Theoretical Treatment of Ion Transfer Processes at Asymmetric Microscopic and Nanoscopic Liquid-Liquid Interfaces: Single and Double Potential Pulse Techniques.” CHEMICAL PHYSICS LETTERS, vol. 597, 2014, pp. 126–33.

Chicago Style

Molina, A, E Laborda, and R Compton. 2014. “An Approximate Theoretical Treatment of Ion Transfer Processes at Asymmetric Microscopic and Nanoscopic Liquid-Liquid Interfaces: Single and Double Potential Pulse Techniques.” CHEMICAL PHYSICS LETTERS 597: 126–33.
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Publisher copy:: 10.1016/j.cplett.2014.02.040

Authors

+ Molina, A More by this author

Role:: Author

+ Laborda, E More by this author

Role:: Author

+ Compton, R More by this author

Institution:: University of Oxford
Division:: MPLS
Department:: Chemistry
Sub department:: Physical & Theoretical Chem
Role:: Author

Journal:: CHEMICAL PHYSICS LETTERS More from this journal
Volume:: 597
Pages:: 126-133
Publication date:: 2014-03-28
DOI:: 10.1016/j.cplett.2014.02.040
ISSN:: 0009-2614

UUID:: uuid:3756ba8a-a200-4910-b685-f040e5e8d3c3
Local pid:: pubs:459751
Source identifiers:: 459751
Deposit date:: 2014-06-17

Terms of use

Copyright date:: 2014

Licence:: Terms and Conditions of Use for Oxford University Research Archive

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