R. Funahashi, I. Matsubara, H. Ikuta, T. Takeuchi, U. Mizutani
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引用次数: 19
摘要
在100-973 K的宽温度范围内,测量了层状结构(Ca, Sr, Bi) 2co2o5 (Co-225)单晶晶须的热电性能。在此温度范围内,塞贝克系数和电阻率都表现出相当复杂的温度依赖性。根据观察到的塞贝克系数和电阻率的特征温度依赖性,将整个温度范围划分为四个不同的区域(I)至(IV)。从区域(I)或多或少线性依赖温度的塞贝克系数,结合电阻率和霍尔系数的独特温度依赖,我们得出结论,在费米能级上存在一个宽度为几meV的小赝隙。观察到复杂的磁性:在22k时发生反铁磁跃迁,但M-H曲线的磁滞一直保持到室温。这被认为是Co原子存在于不同磁环境的证据。该体系具有超过100 μV K -1的大塞贝克系数是由于费米能级上存在赝隙。
Thermoelectric properties of (Ca, Sr, Bi)2Co2O5 whiskers : Special Issue on Structure and Electronic Properties in the Pseudogap Systems
Thermoelectric properties of (Ca, Sr, Bi) 2 Co 2 O 5 (Co-225) single crystalline whiskers with a layered structure were measured over a wide temperature range 100-973 K. Both Seebeck coefficient and electrical resistivity exhibited fairly complex temperature dependences in this temperature range. The whole temperature range studied is divided into four distinct regions (I) to (IV), depending on observed characteristic temperature dependences of both Seebeck coefficient and electrical resistivity. From more or less linearly temperature dependent Seebeck coefficient in region (I) in combination with unique temperature dependences of both resistivity and Hall coefficient, we conclude the presence of a small pseudogap with a width of a few meV across the Fermi level. Complex magnetic properties are observed: the antiferromagnetic transition at 22 K but the hysteresis in the M-H curve remains up to room temperature. This is taken as evidence for the existence of Co atoms situated in different magnetic environments. The possession of large Seebeck coefficients exceeding 100 μV K -1 in this system is attributed to the presence of the pseudogap at the Fermi level.
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