Issue 50, 2018, Issue in Progress

Temporal–spatial-resolved mapping of the electrical double layer changes by surface plasmon resonance imaging

Abstract

An electrical double layer (EDL) is a specific distribution of ions at the electrolyte/electrode interface. As EDL plays a decisive role in the interfacial physical and chemical characteristics, a comprehensive and quantitative understanding of the EDL structure and its change dynamics is important for a wide range of fields, ranging from electrochemistry, energy storage and semiconductor materials to biotechnology. In this paper, we proposed a proof of concept method for temporal- and spatial-resolved mapping of the EDL structure and its change dynamics. A potential was applied on the interface and the potential induced ion re-arrangement process was monitored by surface plasmon resonance (SPR) imaging in real time. NaCl experiments were repeated six times and the coefficient of variation of the results was 5.17%, confirming the potential-induced SPR response. Experiments with different potential excitations, ion concentrations and species were performed and results indicated that the electron density change and ion re-arrangement contributed comparably to the potential induced SPR response. Additionally, the lateral distribution of the EDL formed at the interface between NaCl solutions and an Au film coated with arrays of 11-MUA spots was mapped. This method is temporally and spatially resolved, and thus has the potential to be a promising tool for EDL studies at heterogeneous interfaces.

Graphical abstract: Temporal–spatial-resolved mapping of the electrical double layer changes by surface plasmon resonance imaging

Article information

Article type
Paper
Submitted
23 Jun 2018
Accepted
30 Jul 2018
First published
07 Aug 2018
This article is Open Access
Creative Commons BY-NC license

RSC Adv., 2018,8, 28266-28274

Temporal–spatial-resolved mapping of the electrical double layer changes by surface plasmon resonance imaging

X. Luo, S. Deng and P. Wang, RSC Adv., 2018, 8, 28266 DOI: 10.1039/C8RA05380D

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