The Impact of Graphene in Na[sub.2]FeP[sub.2]O[sub.7]/C/Reduced Graphene Oxide Composite Cathode for Sodium-Ion Batteries

This study presents a thorough investigation of Na[sub.2] FeP[sub.2] O[sub.7] (NFP) cathode material for sodium-ion batteries and its composites with carbon and reduced graphene oxide (rGO). Our findings demonstrate that rGO sheets improve cycling performance in NFP/C/rGO composite in the absence of...

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Veröffentlicht in:Batteries (Basel) 2023-08, Vol.9 (8)
Hauptverfasser: Nesterova, Inara, Britala, Liga, Sarakovskis, Anatolijs, Kruze, Beate, Bajars, Gunars, Kucinskis, Gints
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Sprache:eng
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Zusammenfassung:This study presents a thorough investigation of Na[sub.2] FeP[sub.2] O[sub.7] (NFP) cathode material for sodium-ion batteries and its composites with carbon and reduced graphene oxide (rGO). Our findings demonstrate that rGO sheets improve cycling performance in NFP/C/rGO composite in the absence of solid electrolyte interphase (SEI)-stabilizing additives. However, once SEI is stabilized with the help of fluoroethylene carbonate electrolyte additive, NFP with carbon additive (NFP/C) exhibits a superior electrochemical performance when compared to NFP/rGO and NFP/C/rGO composites. The decreases in capacity and rate capability are proportional to the amount of rGO added, and lead to an increase in overvoltage and internal resistance. Based on our results, we attribute this effect to worsened sodium kinetics in the bulk of the electrode—the larger ionic radius of Na[sup.+] hinders charge transfer in the presence of rGO, despite the likely improved electronic conductivity. These findings provide a compelling explanation for the observed trends in electrochemical performance and suggest that the use of rGO in Na-ion battery electrodes may present challenges associated with ionic transport along and through rGO sheets.
ISSN:2313-0105
2313-0105
DOI:10.3390/batteries9080406