Two-dimensional sodium fluctuation at high temperatures in high-temperature thermoelectric material γ-Na0.7CoO2

Shin Ichi Shamoto; Yuki Hasegawa; Tsuyoshi Kajitani

doi:10.1143/JJAP.45.6395

Two-dimensional sodium fluctuation at high temperatures in high-temperature thermoelectric material γ-Na_0.7CoO₂

Shin Ichi Shamoto
, Yuki Hasegawa
, Tsuyoshi Kajitani

Department of Physics

Research output: Contribution to journal › Article › peer-review

4 Citations (Scopus)

Abstract

A thermoelectric material, γ-Na_0.7CoO₂, with a high figure of merit, ZT > 1, at high temperatures has been studied using the atomic pair distribution function (PDF) analysis of pulsed neutron powder diffraction data. We have found significant PDF peak broadening in the correlation between sodium and oxygen atoms at high temperatures. The broad peak indicates that a sodium atom frequently leaves a NaO₆ prism. In other words, sodium atoms hop in a two-dimensional layer at high temperatures. The PDF intensity of the Na-O correlation below a critical length, where a sodium atom is leaving a prism, is inversely proportional to thermal conductivity. This suggests that the short phonon lifetime originates from the frequent sodium hopping in the two-dimensional layer, leading to high-performance thermoelectric generation.

Original language	English
Pages (from-to)	6395-6397
Number of pages	3
Journal	Japanese Journal of Applied Physics
Volume	45
Issue number	8 A
DOIs	https://doi.org/10.1143/JJAP.45.6395
Publication status	Published - 2006 Aug 4

All Science Journal Classification (ASJC) codes

General Engineering
General Physics and Astronomy

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title = "Two-dimensional sodium fluctuation at high temperatures in high-temperature thermoelectric material γ-Na0.7CoO2",

abstract = "A thermoelectric material, γ-Na0.7CoO2, with a high figure of merit, ZT > 1, at high temperatures has been studied using the atomic pair distribution function (PDF) analysis of pulsed neutron powder diffraction data. We have found significant PDF peak broadening in the correlation between sodium and oxygen atoms at high temperatures. The broad peak indicates that a sodium atom frequently leaves a NaO6 prism. In other words, sodium atoms hop in a two-dimensional layer at high temperatures. The PDF intensity of the Na-O correlation below a critical length, where a sodium atom is leaving a prism, is inversely proportional to thermal conductivity. This suggests that the short phonon lifetime originates from the frequent sodium hopping in the two-dimensional layer, leading to high-performance thermoelectric generation.",

author = "Shamoto, \{Shin Ichi\} and Yuki Hasegawa and Tsuyoshi Kajitani",

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T1 - Two-dimensional sodium fluctuation at high temperatures in high-temperature thermoelectric material γ-Na0.7CoO2

AU - Shamoto, Shin Ichi

AU - Hasegawa, Yuki

AU - Kajitani, Tsuyoshi

PY - 2006/8/4

Y1 - 2006/8/4

N2 - A thermoelectric material, γ-Na0.7CoO2, with a high figure of merit, ZT > 1, at high temperatures has been studied using the atomic pair distribution function (PDF) analysis of pulsed neutron powder diffraction data. We have found significant PDF peak broadening in the correlation between sodium and oxygen atoms at high temperatures. The broad peak indicates that a sodium atom frequently leaves a NaO6 prism. In other words, sodium atoms hop in a two-dimensional layer at high temperatures. The PDF intensity of the Na-O correlation below a critical length, where a sodium atom is leaving a prism, is inversely proportional to thermal conductivity. This suggests that the short phonon lifetime originates from the frequent sodium hopping in the two-dimensional layer, leading to high-performance thermoelectric generation.

AB - A thermoelectric material, γ-Na0.7CoO2, with a high figure of merit, ZT > 1, at high temperatures has been studied using the atomic pair distribution function (PDF) analysis of pulsed neutron powder diffraction data. We have found significant PDF peak broadening in the correlation between sodium and oxygen atoms at high temperatures. The broad peak indicates that a sodium atom frequently leaves a NaO6 prism. In other words, sodium atoms hop in a two-dimensional layer at high temperatures. The PDF intensity of the Na-O correlation below a critical length, where a sodium atom is leaving a prism, is inversely proportional to thermal conductivity. This suggests that the short phonon lifetime originates from the frequent sodium hopping in the two-dimensional layer, leading to high-performance thermoelectric generation.

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JO - Japanese Journal of Applied Physics

JF - Japanese Journal of Applied Physics

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Two-dimensional sodium fluctuation at high temperatures in high-temperature thermoelectric material γ-Na_0.7CoO₂

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