Chemical Differences between K and Na in Alkali Cobaltates

K.-W. Lee; W. E. Pickett

arXiv:0705.3232·cond-mat.str-el·October 20, 2007

Chemical Differences between K and Na in Alkali Cobaltates

K.-W. Lee, W. E. Pickett

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TL;DR

This study compares the electronic structures of potassium and sodium cobaltates at x=0.5, revealing that chemical differences, especially ionic character, significantly influence their electronic properties despite structural similarities.

Contribution

It provides a detailed comparison of K and Na cobaltates at x=0.5, highlighting the impact of chemical differences on their electronic structures using DFT calculations.

Findings

01

Similar electronic structures near the Fermi level

02

Significant differences attributable to ionic character

03

K exhibits more ionic character than Na

Abstract

K $_{x}$ CoO $_{2}$ shares many similarities with Na $_{x}$ CoO $_{2}$ , as well as some important differences (no hydration-induced superconductivity has been reported). At $T_{c 2}$ =20 K, K $_{0.5}$ CoO $_{2}$ becomes an insulator with a tiny optical gap as happens in Na $_{0.5}$ CoO $_{2}$ at 52 K. This similarity, with a known common structure, enables direct comparisons to be made. Using the K-zigzag structure recently reported and the local density approximation, we compare and contrast these cobaltates at x=0.5. Although the electronic structures are quite similar as expected, substantial differences are observed near the Fermi level. These differences are found to be attributable mostly to the chemical, rather than structural difference: although Na is normally considered to be fully ion, K has somewhat more highly ionic character than does Na in these cobaltates.

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