Electrochemical and Chemical Properties of Na2NiO2 as a Cathode Additive for a Rechargeable Sodium Battery
Where the anode of an alkali-metal rechargeable battery has the Fermi energy above the LUMO of the electrolyte, an important fraction of the working ions of a cell become irreversibly trapped in a passivating solid-electrolyte-interphase (SEI) layer formed at the anode surface on the initial charge,...
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Published in | Chemistry of materials Vol. 27; no. 19; pp. 6682 - 6688 |
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Main Authors | , , |
Format | Journal Article |
Language | English |
Published |
American Chemical Society
13.10.2015
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Online Access | Get full text |
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Summary: | Where the anode of an alkali-metal rechargeable battery has the Fermi energy above the LUMO of the electrolyte, an important fraction of the working ions of a cell become irreversibly trapped in a passivating solid-electrolyte-interphase (SEI) layer formed at the anode surface on the initial charge, thus reducing the reversible capacity of the cathode. To compensate for this irreversible loss in a rechargeable sodium-ion battery, a cathode additive that can supply extra Na+ ions should be explored. In this work, we have characterized the chemical and electrochemical properties of orthorhombic Na2NiO2 for this purpose. Through a combined electrochemical and structural characterization, Na2NiO2 is found to be transformed irreversibly to NaNiO2, and the crystalline NaNiO2 is operating as a cathode in the following charge and discharge reactions. We have evaluated electrochemical characteristics of Na2NiO2 and confirmed that it is a suitable cathode additive to compensate for the irreversible Na+ loss at the anode. A full cell with a Sb/C composite anode was successfully designed to demonstrate and verify this cathode strategy. |
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ISSN: | 0897-4756 1520-5002 |
DOI: | 10.1021/acs.chemmater.5b02684 |