Microstructures and electrical properties of zirconium doped barium cerate perovskite proton conductors

Jhe Wei Jhuang; Kan Rong Lee; Sheng Wei Lee; Jeng Kuei Chang; Shian Ching Jang; Chung Jen Tseng

doi:10.1016/j.ijhydene.2019.04.185

Microstructures and electrical properties of zirconium doped barium cerate perovskite proton conductors

Jhe Wei Jhuang, Kan Rong Lee, Sheng Wei Lee, Jeng Kuei Chang, Shian Ching Jang, Chung Jen Tseng

研究成果: 雜誌貢獻 › 期刊論文 › 同行評審

13 引文斯高帕斯（Scopus）

摘要

In this work, we vary the Zr to Ce ratio to investigate the microstructures and electrical properties of zirconium doped barium cerates. The solid state reaction is used in synthesizing the BaCe_0.8-xZr_xY_0.2O₃ (X = 0.1–0.5). The electron backscatter diffraction (EBSD) is successfully applied to identify the crystal structure of the barium cerates. EBSD results indicate that all samples have the orthorhombic structure. Conductivity measurement results show that for temperatures below 700 °C, Zr-doped barium cerates have higher protonic conductivities than oxygen-ion/electron-hole conductivities. The protonic conductivity increases with the Zr content initially, but decreases after the Zr content is higher than 0.3. The protonic conductivity of BCZY0.3 reaches 8.8 mS/cm at 700 °C in dry hydrogen atmosphere. Stability test results show that, for stable operation in CO₂ atmosphere, the Zr content in barium cerates should be greater than 0.2.

原文	???core.languages.en_GB???
頁（從 - 到）	21174-21180
頁數	7
期刊	International Journal of Hydrogen Energy
卷	44
發行號	38
DOIs	https://doi.org/10.1016/j.ijhydene.2019.04.185
出版狀態	已出版 - 9 8月 2019

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10.1016/j.ijhydene.2019.04.185

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title = "Microstructures and electrical properties of zirconium doped barium cerate perovskite proton conductors",

abstract = "In this work, we vary the Zr to Ce ratio to investigate the microstructures and electrical properties of zirconium doped barium cerates. The solid state reaction is used in synthesizing the BaCe0.8-xZrxY0.2O3 (X = 0.1–0.5). The electron backscatter diffraction (EBSD) is successfully applied to identify the crystal structure of the barium cerates. EBSD results indicate that all samples have the orthorhombic structure. Conductivity measurement results show that for temperatures below 700 °C, Zr-doped barium cerates have higher protonic conductivities than oxygen-ion/electron-hole conductivities. The protonic conductivity increases with the Zr content initially, but decreases after the Zr content is higher than 0.3. The protonic conductivity of BCZY0.3 reaches 8.8 mS/cm at 700 °C in dry hydrogen atmosphere. Stability test results show that, for stable operation in CO2 atmosphere, the Zr content in barium cerates should be greater than 0.2.",

keywords = "BaCeZrYO (BCZY), Crystal structure, Electrolyte, Perovskite, Proton ceramic fuel cells, Protonic conductivity",

author = "Jhuang, {Jhe Wei} and Lee, {Kan Rong} and Lee, {Sheng Wei} and Chang, {Jeng Kuei} and Jang, {Shian Ching} and Tseng, {Chung Jen}",

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T1 - Microstructures and electrical properties of zirconium doped barium cerate perovskite proton conductors

AU - Jhuang, Jhe Wei

AU - Lee, Kan Rong

AU - Lee, Sheng Wei

AU - Chang, Jeng Kuei

AU - Jang, Shian Ching

AU - Tseng, Chung Jen

PY - 2019/8/9

Y1 - 2019/8/9

N2 - In this work, we vary the Zr to Ce ratio to investigate the microstructures and electrical properties of zirconium doped barium cerates. The solid state reaction is used in synthesizing the BaCe0.8-xZrxY0.2O3 (X = 0.1–0.5). The electron backscatter diffraction (EBSD) is successfully applied to identify the crystal structure of the barium cerates. EBSD results indicate that all samples have the orthorhombic structure. Conductivity measurement results show that for temperatures below 700 °C, Zr-doped barium cerates have higher protonic conductivities than oxygen-ion/electron-hole conductivities. The protonic conductivity increases with the Zr content initially, but decreases after the Zr content is higher than 0.3. The protonic conductivity of BCZY0.3 reaches 8.8 mS/cm at 700 °C in dry hydrogen atmosphere. Stability test results show that, for stable operation in CO2 atmosphere, the Zr content in barium cerates should be greater than 0.2.

AB - In this work, we vary the Zr to Ce ratio to investigate the microstructures and electrical properties of zirconium doped barium cerates. The solid state reaction is used in synthesizing the BaCe0.8-xZrxY0.2O3 (X = 0.1–0.5). The electron backscatter diffraction (EBSD) is successfully applied to identify the crystal structure of the barium cerates. EBSD results indicate that all samples have the orthorhombic structure. Conductivity measurement results show that for temperatures below 700 °C, Zr-doped barium cerates have higher protonic conductivities than oxygen-ion/electron-hole conductivities. The protonic conductivity increases with the Zr content initially, but decreases after the Zr content is higher than 0.3. The protonic conductivity of BCZY0.3 reaches 8.8 mS/cm at 700 °C in dry hydrogen atmosphere. Stability test results show that, for stable operation in CO2 atmosphere, the Zr content in barium cerates should be greater than 0.2.

KW - BaCeZrYO (BCZY)

KW - Crystal structure

KW - Electrolyte

KW - Perovskite

KW - Proton ceramic fuel cells

KW - Protonic conductivity

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DO - 10.1016/j.ijhydene.2019.04.185

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SN - 0360-3199

VL - 44

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EP - 21180

JO - International Journal of Hydrogen Energy

JF - International Journal of Hydrogen Energy

IS - 38

ER -

Microstructures and electrical properties of zirconium doped barium cerate perovskite proton conductors

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