RuII tris-bipyridine-modified electrode as a sensor for battery electrolyte

• Published in: Electrochemistry communications Vol. 125; p. 106990
• Main Authors: Lecarme, Lauréline, Niyongabo, Aurélie, Lafolet, Frédéric, Alloin, Fannie, Jones, Wayne E., Leprêtre, Jean-Claude
• Format: Journal Article
• Language: English
• Published: Elsevier B.V 01.04.2021; Elsevier
• Subjects: Analytical chemistry; Battery; Chemical Sciences; Coordination chemistry; Electrochemistry; Electrolyte degradation; Recycling; Ruthenium coordination complexes; Sensor; Ruthenium coordination complexes; Electrochemistry; Electrolyte degradation; Recycling; Battery; Sensor; Electrochemistry Sensor
• ISSN: 1388-2481; 1873-1902
• DOI: 10.1016/j.elecom.2021.106990

[Display omitted] •Coordination complexes as an electrochemical sensor for battery electrolyte.•Selective discrimination between the anions present in the electrolyte.•Investigation of electrolyte degradation. Functionalization of a carbon electrode through the electrochemical reduction of ruthenium tris-bipyridine diazonium salts prepared in situ allows determination of the nature of the anions often present in commonly used lithium and sodium battery electrolyte (i.e. PF6− and ClO4−) and also the presence of fluoride anions arising from PF6− degradation. Surprisingly, although these “battery” anions are supposed to exhibit poor coordination ability, their interaction with the electrogenerated RuIII complex is sufficiently strong and reversible to selectively discriminate between the anions ClO4− and PF6− through the observed shift in E°. This study examined the impact of any fluoride present and found a linear relationship between the current response and the F− concentration. This has been applied to ageing LP30 battery electrolyte, confirming the low solubility of LiF in battery electrolyte. This overall behavior could help in the analysis of electrolytes from the recycling sector.