Using Purely Sinusoidal Voltammetry for Rapid Inference of Surface-Confined Electrochemical Reaction Parameters

Alternating current (AC) voltammetric techniques are experimentally powerful as they enable Faradaic current to be isolated from non-Faradaic contributions. Finding the best global fit between experimental voltammetric data and simulations based on reaction models requires searching a substantial pa...

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Veröffentlicht in:	Analytical chemistry (Washington) 2021-02, Vol.93 (4), p.2062-2071
Hauptverfasser:	Lloyd-Laney, Henry O, Yates, Nicholas D. J, Robinson, Martin J, Hewson, Alice R, Firth, Jack D, Elton, Darrell M, Zhang, Jie, Bond, Alan M, Parkin, Alison, Gavaghan, David J
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Schlagworte:	Alternating current Bayesian analysis Chemistry Confidence intervals Electrochemistry Fourier transforms Markov chains Mathematical models Monte Carlo simulation Parameter estimation Physical properties Redox reactions Statistical inference Voltammetry
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creator	Lloyd-Laney, Henry O Yates, Nicholas D. J Robinson, Martin J Hewson, Alice R Firth, Jack D Elton, Darrell M Zhang, Jie Bond, Alan M Parkin, Alison Gavaghan, David J
description	Alternating current (AC) voltammetric techniques are experimentally powerful as they enable Faradaic current to be isolated from non-Faradaic contributions. Finding the best global fit between experimental voltammetric data and simulations based on reaction models requires searching a substantial parameter space at high resolution. In this paper, we estimate parameters from purely sinusoidal voltammetry (PSV) experiments, investigating the redox reactions of a surface-confined ferrocene derivative. The advantage of PSV is that a complete experiment can be simulated relatively rapidly, compared to other AC voltammetric techniques. In one example involving thermodynamic dispersion, a PSV parameter inference effort requiring 7,500,000 simulations was completed in 7 h, whereas the same process for our previously used technique, ramped Fourier transform AC voltammetry (ramped FTACV), would have taken 4 days. Using both synthetic and experimental data with a surface confined diazonium substituted ferrocene derivative, it is shown that the PSV technique can be used to recover the key chemical and physical parameters. By applying techniques from Bayesian inference and Markov chain Monte Carlo methods, the confidence, distribution, and degree of correlation of the recovered parameters was visualized and quantified.
doi_str_mv	10.1021/acs.analchem.0c03774
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The advantage of PSV is that a complete experiment can be simulated relatively rapidly, compared to other AC voltammetric techniques. In one example involving thermodynamic dispersion, a PSV parameter inference effort requiring 7,500,000 simulations was completed in 7 h, whereas the same process for our previously used technique, ramped Fourier transform AC voltammetry (ramped FTACV), would have taken 4 days. Using both synthetic and experimental data with a surface confined diazonium substituted ferrocene derivative, it is shown that the PSV technique can be used to recover the key chemical and physical parameters. 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subjects	Alternating current Bayesian analysis Chemistry Confidence intervals Electrochemistry Fourier transforms Markov chains Mathematical models Monte Carlo simulation Parameter estimation Physical properties Redox reactions Statistical inference Voltammetry
title	Using Purely Sinusoidal Voltammetry for Rapid Inference of Surface-Confined Electrochemical Reaction Parameters
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