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Vol.62, No.7, 542 ~ 550, 2024
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| Title |
| Skutterudite: Reproducibility of Thermoelectric Performance of P-type RyFe4-xCoxSb12 Bulky Compacts |
| 김진솔 Jin-sol Kim , 신동길 Dong-kil Shin , 박관호 Kwan-ho Park , 김일호 Il-ho Kim |
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| Abstract |
| Skutterudite compounds have excellent thermoelectric performance in the intermediate-to high temperature range. Their lattice thermal conductivity can be reduced by intensifying phonon scattering through independent vibrations of the guest atoms, by filling the voids within the lattice. Furthermore, the thermoelectric figure of merit (ZT) can be enhanced by optimizing the carrier concentration through charge compensation between transition elements. In this study, we compared the thermoelectric properties of p-type filled skutterudite materials, RyFe4-xCoxSb12, where R represents rare-earth elements (La/Ce/Pr/Nd/Yb), which were filled in the voids, and Co was charge-compensated at the Fe site. In the case of LayFe4-xCoxSb12, the introduction of La filling and Co doping led La0.9Fe3CoSb12 to exhibit a high power factor and low thermal conductivity (ZT = 0.67 at 723 K). In the case of CeyFe4-xCoxSb12, in addition to Ce filling, the substitution of Co for Fe resulted in additional lattice scattering, leading to a decrease in thermal conductivity. However, CeFe4Sb12 exhibited a maximum performance of ZT = 0.70 at 823 K. In the case of PryFe4-xCoxSb12, the thermal conductivity was reduced through phonon scattering induced by Pr filling and additional lattice scattering caused by Co substitution; as a result, Pr0.8Fe3CoSb12 exhibited ZT = 0.89 at 723 K. In the case of NdyFe4-xCoxSb12, the phonon scattering was enhanced by adjusting the filling of Nd and substitution of Co, resulting in a lower thermal conductivity; Nd0.9Fe3.5Co0.5Sb12 exhibited ZT = 0.91 at 723 K. For YbyFe4-xCoxSb12, Yb0.9Fe3CoSb12 exhibited a thermoelectric performance of ZT = 0.56 at 823 K. In addition, in this study, for the fabrication (application) of thermoelectric modules, the p-type Nd0.9Fe3.5Co0.5Sb12 skutterudite, which exhibited the best thermoelectric performance, was prepared in bulky compacts to verify the uniformity and reproducibility of its thermoelectric performance. |
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| Key Words |
| thermoelectric, skutterudite, rare-earth filling, charge compensation, reproducibility, uniformity |
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