Volume 246, 2023

Iontronic microscopy of a tungsten microelectrode: “seeing” ionic currents under an optical microscope

Abstract

Optical methods for monitoring electrochemical reactions at an interface are advantageous because of their table-top setup and ease of integration into reactors. Here we apply EDL-modulation microscopy to one of the main components of amperometric measurement devices: a microelectrode. We present experimental measurements of the EDL-modulation contrast from the tip of a tungsten microelectrode at various electrochemical potentials inside a ferrocene-dimethanol Fe(MeOH)2 solution. Using the combination of the dark-field scattering microscope and the lock-in detection technique, we measure the phase and amplitude of local ion-concentration oscillations in response to an AC potential as the electrode potential is scanned through the redox-activity window of the dissolved species. We present the amplitude and phase map of this response, as such this method can be used to study the spatial and temporal variations of the ion-flux due to an electrochemical reaction close to metallic and semiconducting objects of general geometry. We discuss the advantages and possible extensions of using this microscopy method for wide-field imaging of ionic currents.

Graphical abstract: Iontronic microscopy of a tungsten microelectrode: “seeing” ionic currents under an optical microscope

Associated articles

Supplementary files

Article information

Article type
Paper
Submitted
15 fev 2023
Accepted
27 mar 2023
First published
06 apr 2023
This article is Open Access
Creative Commons BY-NC license

Faraday Discuss., 2023,246, 426-440

Iontronic microscopy of a tungsten microelectrode: “seeing” ionic currents under an optical microscope

Z. Zhang and S. Faez, Faraday Discuss., 2023, 246, 426 DOI: 10.1039/D3FD00040K

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