Felix Kaiser scite author profile

Molybdenum oxides MoO x in the composition range 2 ≤ x ≤ 3 were synthesized and compacted by the solid-state reaction of powdered α-MoO 3 with Mo in the spark-plasma synthesis (SPS) process at temperatures up to 973 K. From six known compounds in the Mo−O system, Mo 18 O 52 (x = 2.889), Mo 17 O 47 (x = 2.760), and γ-Mo 4 O 11 (x = 2.750) were synthesized as practically single-phase products despite their narrow composition ranges (≈0.1 at %) with a yield (0.5−1 g per synthesis) sufficient for thermoelectric property measurements on the polycrystalline bulk material from room temperature to 763 K. For Mo 18 O 52 , which appears to be an intrinsic narrow-gap semiconductor (activation energy ≈ 0.3 eV), exceptionally low thermal conductivity over the full temperature range (0.5−0.9 W m −1 K −1 ), high p-type Seebeck coefficient at room temperature (+140 μV K −1 ), and a p−n transition at 440 K were found. The phases MoO 2 , γ-Mo 4 O 11 , and Mo 17 O 47 show poor metallic conductivity. The highest power factor is achieved by Mo 17 O 47 (30 Wm −1 K −2 for 440 K ≤ T ≤ 610 K). In γ-Mo 4 O 11 , a hitherto unknown reversible transition is found at 450 K from specific heat measurements.

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Enhanced thermoelectric performance in Mg_3+xSb_1.5Bi_0.49Te_0.01via engineering microstructure through melt-centrifugation

Özen

Yahyaoglu

Candolfi

et al. 2021

J. Mater. Chem. A

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Spark Plasma Sintering of Tungsten Oxides WOx (2.50 ≤ x ≤ 3): Phase Analysis and Thermoelectric Properties

Kaiser¹,

Simon²,

Burkhardt³

et al. 2017

Crystals

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Abstract:The solid-state reaction of WO 3 with W was studied in order to clarify the phase formation in the binary system W-O around the composition WO x (2.50 ≤ x ≤ 3) during spark plasma sintering (SPS). A new phase "WO 2.82 " is observed in the range 2.72 ≤ x ≤ 2.90 which might have the composition W 12 O 34 . The influence of the composition on the thermoelectric properties was investigated for 2.72 ≤ x ≤ 3. The Seebeck coefficient, electrical conductivity and electronic thermal conductivity are continuously tunable with the oxygen-to-tungsten ratio. The phase formation mainly affects the lattice thermal conductivity κ lat which is significantly reduced until 700 K for the sample with the composition x = 2.84, which contains the phases W 18 O 49 and "WO 2.82 ". In single-phase WO 2.90 and multi-phase WO x materials (2.90 ≤ x ≤ 3), which contain crystallographic shear plane phases, a similar reduced κ lat is observed only below 560 K and 550 K, respectively. Therefore, the composition range x < 2.90 in which the pentagonal column structural motif is formed might be more suitable for decreasing the lattice thermal conductivity at high temperatures.

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Intermetallic compounds M₂Pt (M = Al, Ga, In, Sn) in the oxygen evolution reaction

Jimenez¹,

Ormeci²,

Burkhardt³

et al. 2021

Sustainable Energy Fuels

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Aspartic acid adsorption on thermoelectric surfaces

Mušić

Holzapfel

Kaiser

et al. 2019

Applied Surface Science

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Felix Kaiser

Molybdenum Oxides MoO_x: Spark-Plasma Synthesis and Thermoelectric Properties at Elevated Temperature

Enhanced thermoelectric performance in Mg_3+xSb_1.5Bi_0.49Te_0.01via engineering microstructure through melt-centrifugation

Spark Plasma Sintering of Tungsten Oxides WOx (2.50 ≤ x ≤ 3): Phase Analysis and Thermoelectric Properties

Intermetallic compounds M₂Pt (M = Al, Ga, In, Sn) in the oxygen evolution reaction

Aspartic acid adsorption on thermoelectric surfaces

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About

Felix Kaiser

Molybdenum Oxides MoOx: Spark-Plasma Synthesis and Thermoelectric Properties at Elevated Temperature

Enhanced thermoelectric performance in Mg3+xSb1.5Bi0.49Te0.01via engineering microstructure through melt-centrifugation

Spark Plasma Sintering of Tungsten Oxides WOx (2.50 ≤ x ≤ 3): Phase Analysis and Thermoelectric Properties

Intermetallic compounds M2Pt (M = Al, Ga, In, Sn) in the oxygen evolution reaction

Aspartic acid adsorption on thermoelectric surfaces

Contact Info

Product

Resources

About

Molybdenum Oxides MoO_x: Spark-Plasma Synthesis and Thermoelectric Properties at Elevated Temperature

Enhanced thermoelectric performance in Mg_3+xSb_1.5Bi_0.49Te_0.01via engineering microstructure through melt-centrifugation

Intermetallic compounds M₂Pt (M = Al, Ga, In, Sn) in the oxygen evolution reaction