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2019 Volume 27 Issue 5
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Xiaoke He, Heng Qi, Qi Xu, Xiansheng Liu, Lei Xu, Baohe Yuan. 2019: Conductive property of Zr0.1Fe0.9V1.1Mo0.9O7with low thermal expansion, Chinese Physics B, 28(5): 283-288. doi: 10.1088/1674-1056/28/5/056501
Citation: Xiaoke He, Heng Qi, Qi Xu, Xiansheng Liu, Lei Xu, Baohe Yuan. 2019: Conductive property of Zr0.1Fe0.9V1.1Mo0.9O7with low thermal expansion, Chinese Physics B, 28(5): 283-288. doi: 10.1088/1674-1056/28/5/056501
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Conductive property of Zr0.1Fe0.9V1.1Mo0.9O7with low thermal expansion

  • North China University of Water Resources and Electric Power, Zhengzhou 450011, China

  • Henan Key Laboratory of Photovoltaic Materials, Henan University, Kaifeng 475004, China

  • Fund Project: the National Natural Science Foundation of China(Grant . 11574276, 51702097, and 11574083)%the Program for Innovative Research Team (in Science and Technology) in University of Henan Province, China(Grant 16IRTSTHN017)%Henan Science and Technology Development Project, China(Grant 182102210241)
  • Low thermal expansion materials are mostly ceramics with low conductive property, which limits their applications in electronic devices. The poor conductive property of ceramic ZrV2O7 could be improved by bi-substitution of Fe and Mo for Zr and V, accompanied with low thermal expansion. Zr0.1Fe0.9V1.1Mo0.9O7 has electrical conductivity of 8.2× 10?5 S/cm and 9.41× 10?4 S/cm at 291 K and 623 K, respectively. From 291 K to 413 K, thermal excitation leads to the increase of carrier concentration, which causes the rapid decrease of resistance. At 413–533 K, the conductivity is unchanged due to high scattering probability and a slowing increase of carrier concentration. The conductivity rapidly increases again from 533 K to 623 K due to the intrinsic thermal excitation. The thermal expansion coefficient of Zr0.1Fe0.9V1.1Mo0.9O7 is as low as 0.72× 10?6 K?1 at 140–700 K from the dilatometer measurement. These properties suggest that Zr0.1Fe0.9V1.1Mo0.9O7 has attractive application in electronic components.
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Conductive property of Zr0.1Fe0.9V1.1Mo0.9O7with low thermal expansion

Abstract: Low thermal expansion materials are mostly ceramics with low conductive property, which limits their applications in electronic devices. The poor conductive property of ceramic ZrV2O7 could be improved by bi-substitution of Fe and Mo for Zr and V, accompanied with low thermal expansion. Zr0.1Fe0.9V1.1Mo0.9O7 has electrical conductivity of 8.2× 10?5 S/cm and 9.41× 10?4 S/cm at 291 K and 623 K, respectively. From 291 K to 413 K, thermal excitation leads to the increase of carrier concentration, which causes the rapid decrease of resistance. At 413–533 K, the conductivity is unchanged due to high scattering probability and a slowing increase of carrier concentration. The conductivity rapidly increases again from 533 K to 623 K due to the intrinsic thermal excitation. The thermal expansion coefficient of Zr0.1Fe0.9V1.1Mo0.9O7 is as low as 0.72× 10?6 K?1 at 140–700 K from the dilatometer measurement. These properties suggest that Zr0.1Fe0.9V1.1Mo0.9O7 has attractive application in electronic components.

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