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橄榄石型硫化物Tm2XS4 (Tm = Mn, Fe, X = Si, Ge)的热电性质

Transactions-Materials Research Society of Japan Pub Date : 2018-02-01 DOI:10.14723/TMRSJ.43.13

H. Nagai, K. Hayashi, Y. Miyazaki

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引用次数: 3

摘要

采用固相反应和火花等离子烧结法制备了多晶橄榄石型硫化物Mn2SiS4、Mn2GeS4、Fe2SiS4和Fe2GeS4。在这些硫化物中，只有Fe2SiS4和Fe2GeS4的电导率和塞贝克系数是可测量的，因为它们的能隙比Mn2SiS4和Mn2GeS4更窄。虽然Fe2SiS4和Fe2GeS4表现出较低的电导率，但它们的塞贝克系数和热导率分别相对较高和较低，显示出它们作为良好热电材料的潜力。Fe2GeS4在700 K时zT值最高，为0.008，通过空穴载流子掺杂和重元素部分取代可以提高zT值。

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Thermoelectric properties of olivine-type sulfides Tm2XS4 (Tm = Mn, Fe, X = Si, Ge)

Polycrystalline olivine-type sulfides, Mn2SiS4, Mn2GeS4, Fe2SiS4, and Fe2GeS4, are prepared by solid-state reactions and spark plasma sintering. Among these sulfides, only the electrical conductivities and Seebeck coefficients of Fe2SiS4 and Fe2GeS4 are measurable, owing to their narrower energy gaps compared with those of Mn2SiS4 and Mn2GeS4. Although Fe2SiS4 and Fe2GeS4 exhibit low electrical conductivities, their Seebeck coefficients and thermal conductivities are relatively high and low, respectively, demonstrating their potential as good thermoelectric materials. The highest zT value, 0.008, is obtained for Fe2GeS4 at 700 K, which can be enhanced by hole carrier doping and heavy elemental partial substitution.

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Transactions-Materials Research Society of Japan

Transactions-Materials Research Society of Japan

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