2013
DOI: 10.1039/c3cp52361f
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Using crystallographic shear to reduce lattice thermal conductivity: high temperature thermoelectric characterization of the spark plasma sintered Magnéli phases WO2.90 and WO2.722

Abstract: Engineering of nanoscale structures is a requisite for controlling the electrical and thermal transport in solids, in particular for thermoelectric applications that require a conflicting combination of low thermal conductivity and low electrical resistivity. We report the thermoelectric properties of spark plasma sintered Magnéli phases WO2.90 and WO2.722. The crystallographic shear planes, which are a typical feature of the crystal structures of Magnéli-type metal oxides, lead to a remarkably low thermal con… Show more

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Cited by 27 publications
(29 citation statements)
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“…A local maximum at 635 K is in good accordance with previous records [11,12,24]. The electrical conductivity of WO2 and WO2.72 indicates typical metallic behaviour with σ(T) ∝ 1/T dependency ( Figure S1b).…”
Section: Thermoelectric Propertiessupporting
confidence: 75%
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“…A local maximum at 635 K is in good accordance with previous records [11,12,24]. The electrical conductivity of WO2 and WO2.72 indicates typical metallic behaviour with σ(T) ∝ 1/T dependency ( Figure S1b).…”
Section: Thermoelectric Propertiessupporting
confidence: 75%
“…However, for WO 2.72 the approximation of κ lat shows uncertainty of maximum 45% and a significant difference regarding WO 3 cannot be determined. WO 2.90 shows κ tot ≈ 3.5-4.5 W·m −1 ·K −1 over the whole temperature range (Figure 6a), which is close to previously published values [11,24]. With respect to errors its lattice contribution κ lat equals that of WO 3 for T > 560 K (Figure 6b).…”
Section: Thermoelectric Propertiessupporting
confidence: 72%
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