Abstract
Recently, a consensus emerges on the relevance of using the energy efficiency (EE) as a metric to evaluate the operational potential window (OPW) of the electrochemical energy storage systems. Unfortunately, EE alone is not comprehensive enough to provide a full understanding of the electrochemical degradation at the electrode/electrolyte interface since both the coulombic efficiency (CE) and the voltage efficiency (VE) have an impact on EE. Here it is proposed to deconvolute EE into its CE and VE contributions by plotting the variations of CE with VE after their Neperian logarithmic transformation (Ln) in a polar coordinate system (ρ, α) where the modulus ρ can be approximated to Ln(EE) and the argument α represents the relative importance of the individual contributions of CE and VE. In the present case, results obtained with YP80F based electrodes in 1 M H2SO4 electrolyte demonstrate that the decrease in EE at both ends of the OPW is different in nature depending on whether the electrode serves as positive or negative electrode.
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