Oxygen nonstoichiometry and the origin of Na ion ordering in P2-Na[subscript x]CoO[subscript 2]

Author(s)

Lee, Patrick A.; Shu, G. J.; Lee, W. L.; Huang, F.-T.; Chu, M.-W.; Chou, F. C.; ... Show more Show less

Alternative title

Oxygen nonstoichiometry and the origin of Na ion ordering in P2-NaxCoO2

Abstract

The impact of oxygen deficiency on physical properties of Na[subscript 2/3]CoO[subscript 2−delta] has been investigated. From the combined thermogravimetric, magnetic susceptibility, and synchrotron x-ray Laue diffraction studies, it is demonstrated that Na[subscript 2/3]CoO[subscript 2] shows no superlattice ordering due to Na ions; however Na[subscript 2/3]CoO[subscript 1.98], which has the same Co valence as that of Na0.71CoO[subscript 2], shows nearly identical magnetic and transport properties and the same simple hexagonal superlattice ordering of [sqrt]12a. It is proposed that the Na ion ordering found in Na[subscript 2/3]CoO[subscript 1.98] is identical to the ideal Na[subscript 0.71]CoO[subscript 2] of large [sqrt]12a×[sqrt]12a×3c superlattice but with additional Na vacancies which are bound to the oxygen defects at room temperature. We conclude that oxygen vacancies play a key role in stabilizing the superlattice structure and must be accounted for in its modeling.

Date issued

2010-08

URI

http://hdl.handle.net/1721.1/61331

Department

Massachusetts Institute of Technology. Department of Physics

Journal

Physical Review B

Publisher

American Physical Society

Citation

Shu, G. J. et al. “Oxygen nonstoichiometry and the origin of Na ion ordering in P2-Na_{x}CoO_{2}.” Physical Review B 82.5 (2010): 054106. © 2010 The American Physical Society.

Version: Final published version

ISSN

1098-0121

1550-235X