A Study on the Effects of La/Sm Codoping on the Structural and High Temperature Thermoelectric Properties of n‐Type CaMnO 3− δ Perovskite

Oxide thermoelectric ceramics attract extensive research interest due to their excellent thermal stability, non‐toxicity, cost‐effectiveness, and earth‐abundant constituent elements. In the present work, the authors study the effect of lanthanum (La) and samarium (Sm) co‐doping on the structural, mi...

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Published in:Crystal research and technology (1979) 2022-09, Vol.57 (9)
Main Authors: Vijay, Ammu, Prasanth S, Charan, Jose, Roshan, P, Vineetha, Saravanan K, Venkata
Format: Article
Language:English
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Summary:Oxide thermoelectric ceramics attract extensive research interest due to their excellent thermal stability, non‐toxicity, cost‐effectiveness, and earth‐abundant constituent elements. In the present work, the authors study the effect of lanthanum (La) and samarium (Sm) co‐doping on the structural, microstructural, and thermoelectric properties of CaMnO 3 ceramics. The X‐ray diffraction (XRD) studies show an increase in unit cell volume with an increase in Sm concentration. A shift in Raman modes is observed, confirming distortions in MnO 6 octahedra with the substitution of rare‐earth elements. The co‐doping strategy leads to a two‐order increment in electrical conductivity and reduction in thermopower as expected due to the increase in Mn 3+ and charge carrier concentration. The highest electrical conductivity value attained is ≈200 S cm −1 at around 570 K for La 0.025 Sm 0.1 Ca 0.875 MnO 3 . The maximum value of thermoelectric power factor achieved is 194 μW m –1 K –2 , which is two orders higher than that of the undoped CaMnO 3 .
ISSN:0232-1300
1521-4079
DOI:10.1002/crat.202200041