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Main Authors: Bodappa, Nataraju, Zhang, Zixiao, Yazdaanpanah, Ramin, Behn, Wyatt, Bevan, Kirk H., Jerkiewicz, Gregory, Grutter, Peter
Format: Preprint
Published: 2025
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Online Access:https://arxiv.org/abs/2501.03159
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author Bodappa, Nataraju
Zhang, Zixiao
Yazdaanpanah, Ramin
Behn, Wyatt
Bevan, Kirk H.
Jerkiewicz, Gregory
Grutter, Peter
author_facet Bodappa, Nataraju
Zhang, Zixiao
Yazdaanpanah, Ramin
Behn, Wyatt
Bevan, Kirk H.
Jerkiewicz, Gregory
Grutter, Peter
contents Electrocatalytic processes occurring at the heterogeneous interface are complex and their understanding at the molecular level remains challenging. Atomic force microscope (AFM) can detect force interactions down to the atomic level, but so far it has been mainly used to obtain in-situ images of electrocatalysts. Here for the first time, we employ AFM to investigate gas evolution at a platinum ultramicroelectrode (Pt UME) under electrochemical conditions using the force noise method. We detect excess force noise when the individual H2 gas bubble nucleation, growth, and detachment events occur at the Pt UME. The excess noise varies linearly with the applied potential on a semi-log plot. Chronoamperometry current fluctuations indicate that the H2 gas bubble radius increases from 1 to 10 micrometers and the AFM deflection signal measurements indicate that the mean H2 bubble radius is 321 micrometers. These two values point to the coalescence of small bubbles generated at the Pt UME interface. The contribution reports an innovative method to probe the gas bubble dynamics at the heterogenous interface under electrochemical conditions with high sensitivity.
format Preprint
id arxiv_https___arxiv_org_abs_2501_03159
institution arXiv
publishDate 2025
record_format arxiv
spellingShingle Probing Electrocatalytic Gas Evolution Reaction at Pt by Force Noise Measurements. Part 1-Hydrogen
Bodappa, Nataraju
Zhang, Zixiao
Yazdaanpanah, Ramin
Behn, Wyatt
Bevan, Kirk H.
Jerkiewicz, Gregory
Grutter, Peter
Mesoscale and Nanoscale Physics
Electrocatalytic processes occurring at the heterogeneous interface are complex and their understanding at the molecular level remains challenging. Atomic force microscope (AFM) can detect force interactions down to the atomic level, but so far it has been mainly used to obtain in-situ images of electrocatalysts. Here for the first time, we employ AFM to investigate gas evolution at a platinum ultramicroelectrode (Pt UME) under electrochemical conditions using the force noise method. We detect excess force noise when the individual H2 gas bubble nucleation, growth, and detachment events occur at the Pt UME. The excess noise varies linearly with the applied potential on a semi-log plot. Chronoamperometry current fluctuations indicate that the H2 gas bubble radius increases from 1 to 10 micrometers and the AFM deflection signal measurements indicate that the mean H2 bubble radius is 321 micrometers. These two values point to the coalescence of small bubbles generated at the Pt UME interface. The contribution reports an innovative method to probe the gas bubble dynamics at the heterogenous interface under electrochemical conditions with high sensitivity.
title Probing Electrocatalytic Gas Evolution Reaction at Pt by Force Noise Measurements. Part 1-Hydrogen
topic Mesoscale and Nanoscale Physics
url https://arxiv.org/abs/2501.03159