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New battery chemistry reveals hidden degradation pathways that cut grid storage life

Researchers have identified two overlooked failure mechanisms in a promising renewable battery design, using real-time electrical monitoring to catch performance killers before they crash system lifespans. The findings could reshape how energy companies predict and extend the reliability of next-generation grid batteries meant to stabilize renewable power.

Originaltitel: Nernstian Diagnostics of Imperfect Selectivity in Naphthalene Diimide‐Based Aqueous Organic Redox Flow Battery

Abstrakt

Aqueous organic redox flow batteries (AORFBs) enhance the sustainability of battery energy storage systems (BESS), supporting a greater integration of renewable electricity into the grid. We investigated the aspartate-derived naphthalene diimide (NDI)-based AORFB by independent monitoring of the individual electrode potentials on positive and negative electrodes. The mapping of these electrode potentials against analytically calculated states of charge (SOCs) for the negative and positive electrodes showed good agreement. This manifests the Nernstian behavior of electrode potentials defined by non-ideal redox electrolytes. Evidence was obtained for both the re-oxidation of charging products at the negative electrode by oxygen traces and their hydrolysis, which were conceptualized as redox shunt and irreversible degradation, respectively. The contributions of these processes to performance deterioration were illustrated using theoretical charging profiles.

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