有前途的候选氧化物Na/sub x/CoO/sub 2/的热电性质和晶体化学

Eighteenth International Conference on Thermoelectrics. Proceedings, ICT'99 (Cat. No.99TH8407) Pub Date : 1999-08-29 DOI:10.1109/ICT.1999.843453

M. Ohtaki

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引用次数: 1

摘要

从晶体化学和传导机理方面讨论了层状过渡金属氧化物Na/sub x/CoO/sub 2/的p型热电性能。三维轨道的高度各向异性空间分布加上ab平面上异常短的Co-Co原子间距离，沿共享边的CoO/sub 6/八面体相互连接形成CoO/sub 2/片，强烈表明Co3d d/spl epsiv/ d/spl epsiv/ (t/sub 2g/-t/sub 2g/)直接重叠是在具有相当共价特征的价带中建立空穴传导的可能。氧化物的导热系数极低(/spl les/1 W/mK)，这意味着随机分布的Na空位和具有低维晶体结构的材料的固有优势。尽管烧结体致密化程度不够，但在常压下烧结的烧结体ZT/spl为ap/0.5。还研究了Na/sup +/离子导电对氧化物热电性能的可能影响。

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Thermoelectric properties and crystal chemistry of promising oxide candidate Na/sub x/CoO/sub 2/

Promising p-type thermoelectric properties of a layered transition metal oxide Na/sub x/CoO/sub 2/ are discussed in terms of crystal chemistry and the conduction mechanism. Highly anisotropic spatial distribution of 3d orbitals coupled with an unusually short Co-Co interatomic distance in the ab plane, along which edge-sharing CoO/sub 6/ octahedra connecting each other to form the CoO/sub 2/ sheets, strongly suggest that Co3d d/spl epsiv/-d/spl epsiv/ (t/sub 2g/-t/sub 2g/) direct overlapping is plausible for establishing hole conduction in the valence band with a fairly covalent character. An extremely low thermal conductivity (/spl les/1 W/mK) of the oxide is also revealed, implying contribution of the randomly distributed Na vacancies and an inherent advantage of materials with low-dimensional crystal structure. In spite of insufficient densification, sintered bodies fired under atmospheric pressure shows ZT/spl ap/0.5. Possible influence of the ionic conduction of Na/sup +/ on the thermoelectric properties of the oxide is also examined.

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Eighteenth International Conference on Thermoelectrics. Proceedings, ICT'99 (Cat. No.99TH8407)

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