On-line monitoring of dissolution processes in nonaqueous electrolytes – A case study with platinum
Ranninger J, Wachs S, Möller J, Mayrhofer K, Berkes BB (2020)
Publication Type: Journal article
Publication year: 2020
Journal
Book Volume: 114
Article Number: 106702
DOI: 10.1016/j.elecom.2020.106702
Abstract
Fundamental understanding of electrochemistry in nonaqueous electrolytes is important for applications like nonaqueous batteries, electroorganic synthesis, CO2 reduction, or metal deposition. Studies on electrode stability contribute to our fundamental understanding and are essential for the evaluation of the overall performance of electrochemical systems. With this work we introduce a tool to this field aiming to particularly investigate dissolution of different electrode materials qualitatively and quantitatively in water-free, organic media. The new approach consists of an electroanalytical flow cell with scanning capability on-line coupled to an inductively coupled plasma mass spectrometer, all together optimized to harsh organic environments. As a case study to demonstrate the strength of the method, we have chosen platinum as working electrode. We unveil its dissolution behavior in methanol-based organic electrolytes for the first time under controlled atmosphere (glovebox), and demonstrate differences in dissolution mechanism compared to aqueous electrolytes.
Authors with CRIS profile
Johanna Ranninger
Lehrstuhl für Elektrokatalyse (HIERN)
Susanne Wachs
Lehrstuhl für Elektrokatalyse (HIERN)
Karl Mayrhofer
Lehrstuhl für Elektrokatalyse (HIERN)
Involved external institutions
Germany (DE)How to cite
APA:
Ranninger, J., Wachs, S., Möller, J., Mayrhofer, K., & Berkes, B.B. (2020). On-line monitoring of dissolution processes in nonaqueous electrolytes – A case study with platinum. Electrochemistry Communications, 114. https://doi.org/10.1016/j.elecom.2020.106702
MLA:
Ranninger, Johanna, et al. "On-line monitoring of dissolution processes in nonaqueous electrolytes – A case study with platinum." Electrochemistry Communications 114 (2020).
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