Observations of Co4+ in a higher spin state and the increase in the Seebeck coefficient of thermoelectric Ca3Co4O9

Observations of Co4+ in a higher spin state and the increase in the Seebeck coefficient of thermoelectric Ca3Co4O9

Ca3Co4O9 has a unique structure that leads to exceptionally high thermoelectric transport. Here we report the achievement of a 27% increase in the room-temperature in-plane Seebeck coefficient of Ca3Co4O9 thin films. We combine aberration-corrected Z-contrast imaging, atomic-column resolved electron...

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Veröffentlicht in:Physical review letters 2012-05, Vol.108 (19), p.196601-196601
Hauptverfasser: Klie, R F, Qiao, Q, Paulauskas, T, Gulec, A, Rebola, A, Öğüt, S, Prange, M P, Idrobo, J C, Pantelides, S T, Kolesnik, S, Dabrowski, B, Ozdemir, M, Boyraz, C, Mazumdar, D, Gupta, A
Format: Artikel
Sprache:eng
Schlagworte:
CLASSICAL AND QUANTUM MECHANICS, GENERAL PHYSICS
ELECTRONS
ENERGY-LOSS SPECTROSCOPY
SPIN
STACKING FAULTS
THIN FILMS
TRANSPORT
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Zusammenfassung:Ca3Co4O9 has a unique structure that leads to exceptionally high thermoelectric transport. Here we report the achievement of a 27% increase in the room-temperature in-plane Seebeck coefficient of Ca3Co4O9 thin films. We combine aberration-corrected Z-contrast imaging, atomic-column resolved electron energy-loss spectroscopy, and density-functional calculations to show that the increase is caused by stacking faults with Co4+-ions in a higher spin state compared to that of bulk Ca3Co4O9. The higher Seebeck coefficient makes the Ca3Co4O9 system suitable for many high temperature waste-heat-recovery applications.
ISSN:0031-9007
1079-7114
DOI:10.1103/PhysRevLett.108.196601