Hysteresis effects in the potential-dependent double layer capacitance of room temperature ionic liquids at a polycrystalline platinum interface
Marcel Drueschler, Benedikt Huber, Stefano Passerini, and Bernhard, Roling
TL;DR
This paper investigates how hysteresis influences the double layer capacitance of room temperature ionic liquids on platinum, highlighting potential-dependent effects at the interface.
Contribution
It introduces a novel analysis of hysteresis effects in the capacitance behavior of ionic liquids at platinum interfaces.
Findings
Hysteresis significantly affects capacitance measurements.
Potential-dependent behavior varies with ionic liquid composition.
Insights into interfacial phenomena at room temperature ionic liquids.
Abstract
This paper has been withdrawn by the author since it had been submitted to Journal of Physical Chemistry C.
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Taxonomy
TopicsIonic liquids properties and applications · Electrochemical Analysis and Applications · Force Microscopy Techniques and Applications