Hui-Shan HU, Jun-You YANG, Ji-Wu XIN, Si-Hui LI, Qing-Hui JIANG, [in Chinese], [in Chinese], [in Chinese], [in Chinese], [in Chinese]. High Thermoelectric Performance of SnTe from the Disproportionation of SnO[J]. Journal of Inorganic Materials, 2019, 34(3): 315

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- Journal of Inorganic Materials
- Vol. 34, Issue 3, 315 (2019)

. DTA curves of SnO powder and hot pressed SnTe-6mol%SnO

. XRD patterns of SnTe-x mol%SnO (x =0, 2, 4, 6)samples(a) and high angle peak position comparison between different samples(b)

. High magnification cross-sectional FESEM image of (a) SnTe and (b) SnTe-6mol%SnO sample, (c) EDS composition analysis results for the spot marked in Fig.3 (b), low magnification cross-sectional FESEM image of SnTe-6mol%SnO sample (d)

. Temperature dependence of (a) electrical resisitivity and (b) Seebeck coefficient of SnTe-y mol%SnO2 (y =0, 1, 2, 3) samples

. Temperature dependence of (a)electrical resisitivity, (b) Seebeck coefficient, (c) power factor of SnTe-x mol%SnO2(x =0, 2,4,6) samples, (d) carrier concentration (n ) and carrier mobility (m ) at room temperature of the samples

. Temperature dependence of (a) thermal conductivity, (b) carrier thermal conductivity and (c) lattice thermal conductivity of SnTe-x mol%SnO samples

. Temperature dependence of ZT values of SnTe-x mol%SnOsamples

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