Investigating the concept of diffusional independence. Potential step transients at nano- and micro-electrode arrays: theory and experiment

Menshykau, Denis; Huang, Xing‐Jiu; Rees, Neil V.; Campo, F. Javier del; Muñoz, Francesc Xavier; Compton, Richard G.

doi:10.1039/b816223a

Cited by 35 publications

(31 citation statements)

References 38 publications

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“…Two different time regimes can be observed at the nanoITIES arrays from these PSCA experiments. Firstly, at short times, a rapid decrease of current is seen and, secondly, a steady-state current is observed at long times [51].…”

Section: Chronoamperometry At the Nanoities Arraymentioning

confidence: 99%

Chronoamperometric response at nanoscale liquid–liquid interface arrays

Sairi¹,

Strutwolf²,

Mitchell³

et al. 2013

Electrochimica Acta

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In this work, potential step chronoamperometry (PSCA) was used to study the behaviour of arrays of nanoscale interfaces between two immiscible electrolyte solutions (nanoITIES). The nanoITIES arrays were formed at nanoporous silicon nitride membranes containing 400 nanopores in a hexagonal close-packed arrangement. Three membrane designs, with nanopore radii of 75, 50 and 17 nm, were studied by ion-transfer of tetrapropylammonium cations across the nanopore array-supported water1,6-dichlorohexane interface. The cell time constants and charging times were determined prior to experimental PSCA. The three membrane designs studied exhibited charging times in the range of 0.08 s to 0.46 s, with the smallest pore configuration (17 nm radius) exhibiting the longest charging time. The experimental steady-state currents were 30-50 % lower than of the calculated inlaid disc model currents, due to diffusion zone overlap at adjacent interfaces. The three 1 ISE member 2 nano-interface arrays studied also showed response times of 6  1 s, being the time required to reach 95 % of the steady-state current.

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Section: Chronoamperometry At the Nanoities Arraymentioning

confidence: 99%

Chronoamperometric response at nanoscale liquid–liquid interface arrays

Sairi¹,

Strutwolf²,

Mitchell³

et al. 2013

Electrochimica Acta

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“…The current of the macroelectrode became time independent for times longer than about 10 s, representing the attainment of the steady-state regime and establishment of convergent diffusion and diffusion independence [38] .…”

Section: Diffusional Independencementioning

confidence: 99%

Arrays of Screen‐Printed Graphite Microband Electrodes as a Versatile Electroanalysis Platform

et al. 2014

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Arrays of microband electrodes were developed by screen printing followed by cutting, which enabled the realization of microband arrays at the cut edge. Microband arrays of different designs were characterised with physical and electrochemical methods. In both cases the methods showed that the microband width was around 5 m. Semi-steady-state cyclic voltammetry responses were observed for redox probes.Chronocoulometric measurements showed the establishment of convergent diffusion regimes characterized by current densities similar to those of a single microelectrode.The analytical performance of the elaborated electrode system and its versatility were illustrated with two electrochemical assays: detection of ascorbic acid via direct oxidation and a mediated glucose biosensor fabricated via dip coating. Due to convergent mass transport both systems showed enhancement of the analytical characteristics. The developed approach can be adapted to automated electrode recovery.

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“…The fraction of the active electrodes is 20% which is less than the typical value of active electrodes in conventional microdisk electrodes arrays. 41,44 This is due to deficiencies in the final etching step of the fabrication process. Presumably, due to slight inhomogeneities in oxide layer thicknesses, the reactive ion etching has not been able to open all the microdisks and hence the low active number.…”

Section: Experimental Validationmentioning

confidence: 99%

Microarrays of Ring-Recessed Disk Electrodes in Transient Generator-Collector Mode: Theory and Experiment

et al. 2009

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The fabrication, characterisation and use of arrays of ring-recessed disk microelectrodes is reported. This devices are operated in generator-collector mode with a disc acting as generator and the ring as the collector. We report experiments and simulations relating to time of flight experiments in which material electrogenerated at a disc is diffusionally transported to the ring. Analysis of the current transient measured at the latter when it is potentiostatted at a value to ensure diffusionally controlled "collection" is shown to sensitively reflect the diffusion coefficients of the species forming the redox couple being driven at the generator electrode. The method is applied to the ferrocene/ferrocenium couple in the room temperature ionic liquid [N 6,2,2,2 ][NTf 2 ] and the results found to agree with independent measurements.

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Investigating the concept of diffusional independence. Potential step transients at nano- and micro-electrode arrays: theory and experiment

Cited by 35 publications

References 38 publications

Chronoamperometric response at nanoscale liquid–liquid interface arrays

Chronoamperometric response at nanoscale liquid–liquid interface arrays

Arrays of Screen‐Printed Graphite Microband Electrodes as a Versatile Electroanalysis Platform

Microarrays of Ring-Recessed Disk Electrodes in Transient Generator-Collector Mode: Theory and Experiment

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