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Stability and Thermoelectric Property of Cu_9Fe_9S_(16): Sulfide Mineral as a Promising Thermoelectric Material

机译：Cu_9FE_9S_（16）的稳定性和热电性能：硫化物矿物作为有前途的热电材料

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Thermoelectric materials based on non-toxic and earth-abundant elements are important from the viewpoint of energy harvesting from the widely-spread waste heat. We have investigated the thermoelectric properties of Cu_9Fe_9S_(16), known as the natural mineral mooihoekite or talnakhite. Seebeck coefficient shows a large negative value of about -140 μV/K around room temperature. Thermal conductivity is found to be as small as 2.0 W/Km above 100 K, which is attributed to the large unit cell and the complicated crystal structure. Our results indicate that Cu_9Fe_9S_(16) can make a high-performance and environmentally-friendly thermoelectric material if the concentration of carriers, especially holes, is reduced.

机译：从无毒性和土壤丰富的元素的热电材料从从广泛传播的废热的能量收集的观点来看都很重要。我们研究了Cu_9Fe_9S_（16）的热电性能，称为天然矿物moohoekite或塔纳克哈特。 Seebeck系数在室温下显示大约-140μV/ k的大负值。导热率被发现在100k以上的2.0W / km以上，这归因于大单元电池和复杂的晶体结构。我们的结果表明，如果载体的浓度，尤其是孔的浓度，Cu_9Fe_9S_（16）可以制备高性能和环保的热电材料。

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《Materials Research Society Meeting》|2014年||共6页
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Naohito Tsujii; Takao Mori;
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Stability and Thermoelectric Property of Cu_9Fe_9S_(16): Sulfide Mineral as a Promising Thermoelectric Material

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