Article ID Journal Published Year Pages File Type
6601513 Electrochemistry Communications 2013 17 Pages PDF
Abstract
O3-type NaFeO2 is a promising candidate as positive electrode materials for rechargeable Na batteries. However, its reversible range of sodium extraction is relatively narrow (x = ca. 0.4 in Na1 − xFeO2) because of the irreversible structural change, presumably associated with the iron migration into the adjacent tetrahedral sites in Na layers as we recently reported. Herein, we report that cobalt-substituted NaFeO2 demonstrates excellent electrode performance in a non-aqueous Na cell at room temperature. NaFe0.5Co0.5O2 delivers approximately 160 mAh g− 1 of reversible capacity with relatively good capacity retention and excellent rate-capability in a voltage range of 2.5-4.0 V, resulting in reversible formation of Na0.3Fe0.5Co0.5O2. The partial substitution of metal element for Fe in O3-type NaFeO2-based materials is proved to be the important strategy to suppress the irreversible phase transition, and thus improving the reversibility of sodium removal/insertion as the electrode materials.
Related Topics
Physical Sciences and Engineering Chemical Engineering Chemical Engineering (General)
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