Enhancing densification and electrical properties of Sm-doped ceria with Ca and Zn as sintering aids

G. Martinez-De la Rosa; J. A. Diaz-Guillen; M. R. Diaz-Guillen; O. J. Dura; K. A. Gonzalez-Garcia; M. E. Bazaldua-Medellin; P. J. Resendiz-Hernandez; K. P. Padmasree

doi:10.1016/j.ijhydene.2023.11.290

Enhancing densification and electrical properties of Sm-doped ceria with Ca and Zn as sintering aids

G. Martinez-De la Rosa
, J. A. Diaz-Guillen
, M. R. Diaz-Guillen
, O. J. Dura
, K. A. Gonzalez-Garcia
, M. E. Bazaldua-Medellin
, P. J. Resendiz-Hernandez
, K. P. Padmasree

Research output: Indexed journal article › Article › peer-review

2 Citations (Scopus)

Abstract

Ca and Zn were incorporated as sintering aids in Sm-doped ceria resulting in materials of general formula A0.02Sm0.08Ce0.9O1.94 for their use as solid electrolytes in Low Temperature-SOFCs. The synthesis was performed with 20 hours of mechanochemical ball-milling and XRD analyses revealed a cubic fluorite-like structure of the ceria and a promoted crystallinity with heat treatments up to 1500 degrees C. SEM images showed microstructures with larger grain sizes and less remnant porosity in the Zn-containing systems. Zn improved the relative density (92.95 %) of SDC when sintered at low temperatures such as 1200 degrees C, however, both Ca and Zn increased the electrical conductivity, with the highest value of 8.39 x 10-2 S/cm at 650 degrees C for the Zn-SDC system. Pure SDC and Ca-SDC resulted in lower relative densities and enhanced thermal insulation properties when sintered at 1200 degrees C.

Original language	English
Pages (from-to)	270-276
Number of pages	7
Journal	International Journal of Hydrogen Energy
Volume	55
DOIs	https://doi.org/10.1016/j.ijhydene.2023.11.290
Publication status	Published - 15 Feb 2024
Externally published	Yes

UN SDGs

This output contributes to the following UN Sustainable Development Goals (SDGs)

SDG 3 Good Health and Well-being
SDG 7 Affordable and Clean Energy

Keywords

Mechanochemistry
SOFC
Sm-doped ceria
Solid electrolytes

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10.1016/j.ijhydene.2023.11.290

Cite this

Martinez-De la Rosa, G., Diaz-Guillen, J. A., Diaz-Guillen, M. R., Dura, O. J., Gonzalez-Garcia, K. A., Bazaldua-Medellin, M. E., Resendiz-Hernandez, P. J., & Padmasree, K. P. (2024). Enhancing densification and electrical properties of Sm-doped ceria with Ca and Zn as sintering aids. International Journal of Hydrogen Energy, 55, 270-276. https://doi.org/10.1016/j.ijhydene.2023.11.290

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title = "Enhancing densification and electrical properties of Sm-doped ceria with Ca and Zn as sintering aids",

abstract = "Ca and Zn were incorporated as sintering aids in Sm-doped ceria resulting in materials of general formula A0.02Sm0.08Ce0.9O1.94 for their use as solid electrolytes in Low Temperature-SOFCs. The synthesis was performed with 20 hours of mechanochemical ball-milling and XRD analyses revealed a cubic fluorite-like structure of the ceria and a promoted crystallinity with heat treatments up to 1500 degrees C. SEM images showed microstructures with larger grain sizes and less remnant porosity in the Zn-containing systems. Zn improved the relative density (92.95 \%) of SDC when sintered at low temperatures such as 1200 degrees C, however, both Ca and Zn increased the electrical conductivity, with the highest value of 8.39 x 10-2 S/cm at 650 degrees C for the Zn-SDC system. Pure SDC and Ca-SDC resulted in lower relative densities and enhanced thermal insulation properties when sintered at 1200 degrees C.",

keywords = "Mechanochemistry, SOFC, Sm-doped ceria, Solid electrolytes",

author = "\{Martinez-De la Rosa\}, G. and Diaz-Guillen, \{J. A.\} and Diaz-Guillen, \{M. R.\} and Dura, \{O. J.\} and Gonzalez-Garcia, \{K. A.\} and Bazaldua-Medellin, \{M. E.\} and Resendiz-Hernandez, \{P. J.\} and Padmasree, \{K. P.\}",

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Martinez-De la Rosa, G, Diaz-Guillen, JA, Diaz-Guillen, MR, Dura, OJ, Gonzalez-Garcia, KA, Bazaldua-Medellin, ME, Resendiz-Hernandez, PJ & Padmasree, KP 2024, 'Enhancing densification and electrical properties of Sm-doped ceria with Ca and Zn as sintering aids', International Journal of Hydrogen Energy, vol. 55, pp. 270-276. https://doi.org/10.1016/j.ijhydene.2023.11.290

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T1 - Enhancing densification and electrical properties of Sm-doped ceria with Ca and Zn as sintering aids

AU - Martinez-De la Rosa, G.

AU - Diaz-Guillen, J. A.

AU - Diaz-Guillen, M. R.

AU - Dura, O. J.

AU - Gonzalez-Garcia, K. A.

AU - Bazaldua-Medellin, M. E.

AU - Resendiz-Hernandez, P. J.

AU - Padmasree, K. P.

PY - 2024/2/15

Y1 - 2024/2/15

N2 - Ca and Zn were incorporated as sintering aids in Sm-doped ceria resulting in materials of general formula A0.02Sm0.08Ce0.9O1.94 for their use as solid electrolytes in Low Temperature-SOFCs. The synthesis was performed with 20 hours of mechanochemical ball-milling and XRD analyses revealed a cubic fluorite-like structure of the ceria and a promoted crystallinity with heat treatments up to 1500 degrees C. SEM images showed microstructures with larger grain sizes and less remnant porosity in the Zn-containing systems. Zn improved the relative density (92.95 %) of SDC when sintered at low temperatures such as 1200 degrees C, however, both Ca and Zn increased the electrical conductivity, with the highest value of 8.39 x 10-2 S/cm at 650 degrees C for the Zn-SDC system. Pure SDC and Ca-SDC resulted in lower relative densities and enhanced thermal insulation properties when sintered at 1200 degrees C.

AB - Ca and Zn were incorporated as sintering aids in Sm-doped ceria resulting in materials of general formula A0.02Sm0.08Ce0.9O1.94 for their use as solid electrolytes in Low Temperature-SOFCs. The synthesis was performed with 20 hours of mechanochemical ball-milling and XRD analyses revealed a cubic fluorite-like structure of the ceria and a promoted crystallinity with heat treatments up to 1500 degrees C. SEM images showed microstructures with larger grain sizes and less remnant porosity in the Zn-containing systems. Zn improved the relative density (92.95 %) of SDC when sintered at low temperatures such as 1200 degrees C, however, both Ca and Zn increased the electrical conductivity, with the highest value of 8.39 x 10-2 S/cm at 650 degrees C for the Zn-SDC system. Pure SDC and Ca-SDC resulted in lower relative densities and enhanced thermal insulation properties when sintered at 1200 degrees C.

KW - Mechanochemistry

KW - SOFC

KW - Sm-doped ceria

KW - Solid electrolytes

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JO - International Journal of Hydrogen Energy

JF - International Journal of Hydrogen Energy

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Enhancing densification and electrical properties of Sm-doped ceria with Ca and Zn as sintering aids

Abstract

UN SDGs

Keywords

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