Specific-heat evidence for strong electron correlations in the thermoelectric material (Na,Ca)Co2O4
Abstract
The specific heat of (Na,Ca)Co2O4 is measured at low-temperatures to determine the magnitude of the electronic specific-heat coefficient γ, in an attempt to gain an insight into the origin of the unusually large thermoelectric power of this compound. It is found that γ is as large as 48 mJ/molK2, which is an order of magnitude larger than γ of simple metals. This indicates that (Na,Ca)Co2O4 is a strongly-correlated electron system, where the strong correlation probably comes from the low-dimensionality and the frustrated spin structure. We discuss how the large thermopower and its dependence on Ca doping can be understood with the strong electron correlations.
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