The study highlighted the significance of data quality, particularly, when leveraging historical data and presented a use case for design augmentation and comprehensive analysis of interdependencies in lithium-ion electrode manufacturing. The enh...
Artikel
Application of Na2CO3 as a Sacrificial Electrode Additive in Na‐ion Batteries to Compensate for the Sodium Deficiency in Na2/3[Fe1/2Mn1/2]O2
Von Wiley-VCH zur Verfügung gestellt
Na2CO3 was introduced into the composite positive electrode of P2−Na2/3Fe1/2Mn1/2O2 as a sacrificial salt, supplying Na+ through the electrochemical oxidative decomposition of Na2CO3 during the first charging process, and its decomposition mechanism was investigated in detail.
Abstract
Owing to their high discharge capacities, P2-type transition metal layered oxides have attracted attention for use as positive electrode materials in Na-ion batteries. However, owing to the Na-deficient compositions of these oxides, additional Na+ must be supplied using a Na-metal negative electrode to attain a high capacity in a half-cell configuration. In this study, solid Na2CO3 powder was introduced into the P2−Na2/3Fe1/2Mn1/2O2 composite positive electrode as a sacrificial salt to compensate for the Na deficiency. Na+ was supplied through the electrochemical oxidative decomposition of Na2CO3 during the initial charging process; the decomposition mechanism responsible for this process was investigated in detail. Online electrochemical mass spectrometry confirmed that Na2CO3 was oxidatively decomposed in combination with the decomposition of the ethylene carbonate electrolyte. This reaction produced CO2, wherein the carbon source was derived from both Na2CO3 and the electrolyte. Consequently, Na+ supplementation improved the reversible capacity of the Na-ion full cell. This study offers practical insights and a mechanistic understanding of the pre-doping technique for Na-free negative electrodes. This approach also compensates for the irreversible reductive capacity in a process that can be easily applied to practical sodium- and lithium-ion batteries and capacitors.
Zum VolltextÜberprüfung Ihres Anmeldestatus ...
Wenn Sie ein registrierter Benutzer sind, zeigen wir in Kürze den vollständigen Artikel.