Textured Ca3Co4O9 thermoelectric oxides by thermoforging process

Prevel, M.; Lemonnier, Sébastien; Klein, Yannick; Hébert, S.; Chateigner, D.; Ouladdiaf, B.; Noudem, Jacques

doi:10.1063/1.2120892

Cited by 87 publications

(64 citation statements)

References 14 publications

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“…The maximum of the distribution near 4.9 m.r.d. on the {001} pole figure for both samples is comparable to the average orientations observed so far in Co349 ceramics [18,19,21,35]. The minimum of density is nearly 0, indicating that no other orientation component is present in the samples.…”

Section: Resultssupporting

confidence: 83%

“…However one cannot exclude a priori an effect of its larger crystallite distribution, as seen in the broader centre of its {001} pole figure compared to SPS-1123K. The positive Seebeck coefficient S value is an indication [3,11,21] of the hole mediated conduction in Ca 3 Co 4 O 9 .…”

Section: Resultsmentioning

confidence: 94%

“…Single crystal composite templating [18], reactive template grain growth [19], hot pressing [20], sinter-forging [11,21], and magnetic field [22] are also used to densify and/or to induce an orientation between grains. In addition, the novel Spark Plasma Sintering (SPS) technique has been developed and commonly used nowadays to prepare various materials [23][24][25][26][27].…”

Section: Introductionmentioning

confidence: 99%

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Thermoelectric Ca3Co4O9 ceramics consolidated by Spark Plasma sintering

et al. 2008

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Hole-doped Ca 3 Co 4 O 9 (Co349) ceramics were prepared using solid-state reaction. Two processing strategies have been used to produce the thermoelectric oxide ceramics, Conventional and Spark Plasma (SPS) Sintering to control the grains consolidation, texturation and sample densification. Thermoelectric properties were measured and the influence of the processing conditions on the properties was evidenced. SPS favours shorter elaboration times and produces samples with larger thermoelectric properties due to better densification and alignment. The effect of the free deformation and texturation using the SPS technique is discussed. Seebeck coefficient values of 180 μV/K at 873 K are obtained.

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Section: Resultssupporting

confidence: 83%

Section: Resultsmentioning

confidence: 94%

Section: Introductionmentioning

confidence: 99%

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Thermoelectric Ca3Co4O9 ceramics consolidated by Spark Plasma sintering

et al. 2008

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“…Owing to this fact, a large amount of research has been carried out on improving the TE properties of randomly oriented polycrystalline Ca 3 Co 4 O 9 ceramics, but with very limited improvement. [2][3][4][5] Therefore, several efforts have been made to improve the texture of Ca 3 Co 4 O 9 ceramic by various methods, such as spark plasma sintering, 6 magnetic alignment, 7 and hot-forging processes, 8 owing to a general belief that the grain boundaries negatively affect the electrical conductivity and hence the TE properties of this system. The epitaxial growth and c-axis-oriented films fabricated using the pulsed laser deposition (PLD), 9,10 radio-frequency magnetron sputtering, 11 and the topotactic ion exchange method 12 have proven to be successful in improving the TE properties of this system.…”

Section: Introductionmentioning

confidence: 99%

Thermoelectric properties of Ca₃Co₄O₉ and Ca_2.8Bi_0.2Co₄O₉ thin films in their island formation mode

et al. 2013

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Ca3Co4O9 and Ca2.8Bi 0.2Co4O9 thin films were fabricated on LaAlO3 (LAO) substrate using pulsed laser deposition technique and were studied for their thermoelectric (TE) properties in Stranski-Krastanov mode for the first time. The thin films consisted of 3D clusters/islands on a 14-nm thick 2D layer with cluster density being higher for Ca 2.8Bi0.2Co4O9 thin films. The clusters also represent areas of dislocation and therefore act as carrier scattering centers, which leads to a temperature-activated type conductivity. Seebeck coefficient as high as 136 and 163 u V/K was measured for the Ca 3Co4O9 and Ca2.8Bi 0.2Co4O9 thin films, respectively, which is among the highest reported values for this system. The 3D island formation was also found to be useful in reducing the thermal conductivity of the thin film/substrate system by increased phonon scattering. This work shows that the island formation in thin films can be utilized as a means of enhancing TE properties of a thin film system, however, a detailed work including optimization of the film thickness and cluster/inland density is required. thin films, respectively, which is among the highest reported values for this system. The 3D island formation was also found to be useful in reducing the thermal conductivity of the thin film/substrate system by increased phonon scattering. This work shows that the island formation in thin films can be utilized as a means of enhancing TE properties of a thin film system, however, a detailed work including optimization of the film thickness and cluster/inland density is required.

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“…3a) gives evidence that to increase the electrical conductivity and the power factor an improvement of the connectivity and orientation of the grains is required. One of the possible approaches to reduce the porosity of the sintered materials and align the grains is the hot-forging, and in general it was shown that the performance of piezoelectric [14], ferroelectric [15] and thermoelectric [16] oxide ceramics is greatly enhanced by the hot-forging technique. Another possible approach to obtain aligned grains was widely applied to superconducting ceramics and it is called "melt textured growth" (MTG) [17].…”

Section: P-type Oxides: Cualomentioning

confidence: 99%

Synthesis and characterization of <i>n</i>-type and <i>p</i>-type thermoelectric oxides

Mele

Matsumoto

Miyazaki

2010

Trans. Mat. Res. Soc. Japan

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α and γ Al 2 O 3 doped sintered ZnO (n-type) and sintered CuAlO 2 (p-type) pellets were prepared by conventional solid state synthesis starting from the oxides. 2% γ Al 2 O 3 doped ZnO was the best n-type sample showing a thermoelectric figure of merit ZT = 0.17 at 800 °C. In the case of p-type CuAlO 2 sample, ZT = 0.035 at 800 °C was obtained by application of melt-textured growth (MTG) process to the sintered pellet. In this work, MTG was recognized for the first time as effective way for the enhancement of thermoelectric properties of CuAlO 2 .

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Textured Ca3Co4O9 thermoelectric oxides by thermoforging process

Cited by 87 publications

References 14 publications

Thermoelectric Ca3Co4O9 ceramics consolidated by Spark Plasma sintering

Thermoelectric Ca3Co4O9 ceramics consolidated by Spark Plasma sintering

Thermoelectric properties of Ca₃Co₄O₉ and Ca_2.8Bi_0.2Co₄O₉ thin films in their island formation mode

Synthesis and characterization of <i>n</i>-type and <i>p</i>-type thermoelectric oxides

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Textured Ca3Co4O9 thermoelectric oxides by thermoforging process

Cited by 87 publications

References 14 publications

Thermoelectric Ca3Co4O9 ceramics consolidated by Spark Plasma sintering

Thermoelectric Ca3Co4O9 ceramics consolidated by Spark Plasma sintering

Thermoelectric properties of Ca3Co4O9 and Ca2.8Bi0.2Co4O9 thin films in their island formation mode

Synthesis and characterization of <i>n</i>-type and <i>p</i>-type thermoelectric oxides

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Thermoelectric properties of Ca₃Co₄O₉ and Ca_2.8Bi_0.2Co₄O₉ thin films in their island formation mode