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Journal article

New approach to electrode kinetic measurements in square-wave voltammetry: amplitude-based quasireversible maximum.

Abstract:: The influence of the potential pulse height of square-wave voltammetry (SWV) (i.e., the SW amplitude) is studied for a variety of quasireversible electrode mechanisms, including a simple solution-phase electrode reaction at a planar or spherical electrode, a solution phase electrode reaction coupled with a reversible follow-up chemical reaction, and a diffusionless surface confined electrode reaction. The electrode kinetics of all the electrode mechanisms depends critically on the SW amplitud...
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Publication status:: Published

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APA Style

Mirceski, V., Laborda, E., Guziejewski, D., & Compton, R. (2013). New approach to electrode kinetic measurements in square-wave voltammetry: amplitude-based quasireversible maximum. Analytical Chemistry, 85(11), 5586–5594.

MLA Style

Mirceski, V., et al. “New Approach to Electrode Kinetic Measurements in Square-Wave Voltammetry: Amplitude-Based Quasireversible Maximum.” Analytical Chemistry, vol. 85, no. 11, 2013, pp. 5586–94.

Chicago Style

Mirceski, V, E Laborda, D Guziejewski, and R Compton. 2013. “New Approach to Electrode Kinetic Measurements in Square-Wave Voltammetry: Amplitude-Based Quasireversible Maximum.” Analytical Chemistry 85 (11): 5586–94.
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Publisher copy:: 10.1021/ac4008573

Authors

+ Mirceski, V More by this author

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+ Laborda, E More by this author

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+ Guziejewski, D More by this author

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+ Compton, R More by this author

Institution:

University of Oxford

Division:

MPLS

Department:

Chemistry

Sub department:

Physical & Theoretical Chem

Role:

Author

Bibliographic Details

Journal:: Analytical chemistry
Volume:: 85
Issue:: 11
Pages:: 5586-5594
Publication date:: 2013-06-01
DOI:: 10.1021/ac4008573
EISSN:: 1520-6882
ISSN:: 0003-2700

Item Description

Language:: English
UUID:: uuid:08c5c4d6-1d37-4037-9b2a-2812f4750afa
Local pid:: pubs:401830
Source identifiers:: 401830
Deposit date:: 2013-11-17

Terms of use

Copyright date:: 2013

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

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