Investigating the oxygen evolution reaction on Ir(111) electrode in acidic medium using conventional and dynamic electrochemical impedance spectroscopy

In this study, conventional and dynamic electrochemical impedance spectroscopy measurements (EIS and DEIS, respectively) were performed on Ir(111) single crystal electrode and Ir nanoparticles supported onto high-surface area carbon in acidic electrolyte and different potential ranges. We found that...

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Published in:Electrochimica acta 2019-10, Vol.320, p.134536, Article 134536
Main Authors: Scohy, M., Montella, C., Claudel, F., Abbou, S., Dubau, L., Maillard, F., Sibert, E., Sunde, S.
Format: Article
Language:English
Subjects:
Catalysis
Chemical Sciences
Dynamical electrochemical impedance spectrocopy (DEIS)
Electrochemical impedance spectrocopy (EIS)
Electrochemical impedance spectroscopy
Electrodes
Impedance measurement
Inductively coupled plasma mass spectrometry
Ir nanoparticles
Ir single crystal
Mass spectrometry
Nanoparticles
or physical chemistry
Organic chemistry
Oxygen evolution reaction (OER)
Oxygen evolution reactions
Single crystals
Theoretical and
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cited_by cdi_FETCH-LOGICAL-c463t-5ec710afdd9d88b5b05f4319ef930661a6dd6773347379a9c5d72741ff3007a43
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container_start_page 134536
container_title Electrochimica acta
container_volume 320
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description In this study, conventional and dynamic electrochemical impedance spectroscopy measurements (EIS and DEIS, respectively) were performed on Ir(111) single crystal electrode and Ir nanoparticles supported onto high-surface area carbon in acidic electrolyte and different potential ranges. We found that the EIS and DEIS results compare fairly well below the onset of oxygen evolution reaction (OER). However, in the OER potential region, some differences were observed between the information derived from these measurements. Cyclic voltammetry and inductively-coupled plasma mass spectrometry experiments revealed that the long time required by EIS cause chemical and structural changes of the Ir(111) surface and oxygen evolution, thus adversely affecting the reliability of the impedance measurement. On the contrary, the short time required for DEIS measurements help mitigating these negative effects, thus highlighting the benefits of such technique to investigate the early stages of surface oxide formation on Ir single crystals.
doi_str_mv 10.1016/j.electacta.2019.07.047
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source ScienceDirect Journals
subjects Catalysis
Chemical Sciences
Dynamical electrochemical impedance spectrocopy (DEIS)
Electrochemical impedance spectrocopy (EIS)
Electrochemical impedance spectroscopy
Electrodes
Impedance measurement
Inductively coupled plasma mass spectrometry
Ir nanoparticles
Ir single crystal
Mass spectrometry
Nanoparticles
or physical chemistry
Organic chemistry
Oxygen evolution reaction (OER)
Oxygen evolution reactions
Single crystals
Theoretical and
title Investigating the oxygen evolution reaction on Ir(111) electrode in acidic medium using conventional and dynamic electrochemical impedance spectroscopy
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