AI Article Synopsis
- One-dimensional Haldane gap materials, like rare earth barium chain nickelates, exhibit strong spin antiferromagnetic properties and unique structures that make them interesting for thermoelectric applications.
- The material CaBaGdNiO shows impressive Seebeck coefficients of 140-280 μV K at high temperatures, maintained even with significant acceptor-substitution levels due to low dimensionality and electronic correlations.
- Despite low thermal conductivities of around 1.5 W m K, ideal for thermoelectrics, the electrical conductivity of these materials is still insufficient, highlighting the need to improve electronic band structures and microstructural features to boost charge carrier mobility.
Article Abstract
One-dimensional Haldane gap materials, such as the rare earth barium chain nickelates, have received great interest due to their vibrant one-dimensional spin antiferromagnetic character and unique structure. Herein we report how these 1D structural features can also be highly beneficial for thermoelectric applications by analysis of the system CaBaGdNiO 0 ≤ x ≤ 0.25. Attractive Seebeck coefficients of 140-280 μV K at 350-1300 K are retained even at high acceptor-substitution levels, provided by the interplay of low dimensionality and electronic correlations. Furthermore, the highly anisotropic crystal structure of Haldane gap materials allows very low thermal conductivities, reaching only 1.5 W m K at temperatures above 1000 K, one of the lowest values currently documented for prospective oxide thermoelectrics. Although calcium substitution in BaGdNiO increases the electrical conductivity up to 5-6 S cm at 1150 K < T < 1300 K, this level remains insufficient for thermoelectric applications. Hence, the combination of highly promising Seebeck coefficients and low thermal conductivities offered by this 1D material type underscores a potential new structure type for thermoelectric materials, where the main challenge will be to engineer the electronic band structure and, probably, microstructural features to further enhance the mobility of the charge carriers.
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| http://dx.doi.org/10.1021/acs.inorgchem.7b00049 | DOI Listing |
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