2021
DOI: 10.1021/acs.jpcc.1c02124
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The Crucial Role of Water in the Stability and Electrocatalytic Activity of Pt Electrodes

Abstract: Understanding the role of water in the activity and stability of electrocatalysts is of great interest for different fundamental reactions. Investigations aiming to expand understanding of this are very challenging in aqueous electrolytes. By contrast, nonaqueous electrolytes with very well-defined water content can provide ideal conditions to better clarify the role of water in electrochemical reactions. In this paper, the dissolution and electrochemical behavior of Pt during potentiodynamic and potentiostati… Show more

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Cited by 8 publications
(10 citation statements)
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“…“Cathodic” dissolution, therefore, seems to arise independently of prior structural damage because of TM dissolution when using LiPF 6 -based electrolytes. The emergence of reductive dissolution patterns in water-enriched nonaqueous electrolytes is well known for Pt substrates, as was demonstrated in a previous work by Ranninger et al They suppose that water enables the formation of surface Pt–O during anodic sweeping, which then desorbs on the subsequent cathodic sweep. However, in this case the “anodic”…”
Section: Resultsmentioning
confidence: 72%
“…“Cathodic” dissolution, therefore, seems to arise independently of prior structural damage because of TM dissolution when using LiPF 6 -based electrolytes. The emergence of reductive dissolution patterns in water-enriched nonaqueous electrolytes is well known for Pt substrates, as was demonstrated in a previous work by Ranninger et al They suppose that water enables the formation of surface Pt–O during anodic sweeping, which then desorbs on the subsequent cathodic sweep. However, in this case the “anodic”…”
Section: Resultsmentioning
confidence: 72%
“…However, the expected increased cathodic Pt dissolution associated with the reduction of Pt−O can be observed. The onset of the oxide reduction, which is expressed as cathodic dissolution in the analysis, is shifted around 600 mV to negative potentials compared to pure methanol [9c] . We speculate that the substituted oxide layer, as described by Conway and Vijh, [16] is the reason for this shift.…”
Section: Resultsmentioning
confidence: 59%
“…The onset of the oxide reduction, which is expressed as cathodic dissolution in the analysis, is shifted around 600 mV to negative potentials compared to pure methanol. [9c] We speculate that the substituted oxide layer, as described by Conway and Vijh, [16] is the reason for this shift. The strongly adsorbed CH 3 COO species stabilize the underlying oxide.…”
Section: Resultsmentioning
confidence: 69%
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