Calcium ion conduction anisotropy of b-axis-aligned CaAl4O7 polycrystal

Koichiro Fukuda; Fumiya Nakajima; Daisuke Urushihara; Toru Asaka; Tohru S. Suzuki; Abid Berghout; Assil Bouzid; Olivier Masson; Philippe Thomas

doi:10.2109/jcersj2.24026

論文 Calcium ion conduction anisotropy of b-axis-aligned CaAl₄O₇ polycrystal

Koichiro Fukuda ; Fumiya Nakajima ; Daisuke Urushihara ; Toru Asaka ; Tohru S. Suzuki ; Abid Berghout ; Assil Bouzid ; Olivier Masson ; Philippe Thomas

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Koichiro Fukuda, Fumiya Nakajima, Daisuke Urushihara, Toru Asaka, Tohru S. Suzuki, Abid Berghout, Assil Bouzid, Olivier Masson, Philippe Thomas. Calcium ion conduction anisotropy of b-axis-aligned CaAl₄O₇ polycrystal. Journal of the Ceramic Society of Japan. 2024, 132 (7), 24026. https://doi.org/10.2109/jcersj2.24026

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(abstract)

To investigate the anisotropy of Ca2+ conduction, the b-axis-aligned CaAl4O7 (space group C2/c) polycrystal was prepared by colloidal processing under high magnetic field of 12T followed by sintering at 1773K for 2 h. The texture fraction of {0k0}, expressed as the Lotgering factor f0k0, was 0.63. The c101a directions of individual crystal grains were randomly distributed around the grain-alignment direction of the polycrystal. The conductivities perpendicular (σ⊥) and parallel (σ//) to the grain alignment direction were compared with the conductivity (σrandom) of random grain oriented polycrystal between 773 and 1073 K. The σ⊥ ranging from 3.09 x 10^17 to 1.80x10^15 Scm^-1, showed the highest value at each temperature, followed by σrandom and σ// in that order. The results have confirmed for the first time the anisotropy of Ca2+ conduction and strongly supported the preferential conduction in the <101> direction predicted in the literature by the bond valence method.

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