Materials Research Express (Jan 2022)

Microstructural evolution and its influence on oxygen diffusion in yttrium-doped ceria thin films

  • Jinzhan Li,
  • Li Lei,
  • Limin Li,
  • Bo Deng,
  • Gaoyang Zhao,
  • Lihua Jin,
  • Chengshan Li

DOI
https://doi.org/10.1088/2053-1591/ac3952
Journal volume & issue
Vol. 9, no. 4
p. 046404

Abstract

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Ceria doped with rare earth ions (Ce _1−x M _x O _2−y (y = x/2)), which contain many oxygen vacancies, have become excellent electrolyte materials for solid oxide fuel cells and important buffer layers for coated conductors. In this paper, Y ^3+ ions were doped into the lattice of CeO _2 to form Ce _1−x Y _x O _2−y (CYO) thin films regarded as buffer layers to reduce oxygen diffusion on silicon substrates. It was revealed that the CYO films gradually transformed from a complete fluorite structure into a defective fluorite structure with more and more oxygen vacancies as the proportion of Y ^3+ ions in CYO films increased from zero, and then the defective fluorite structure transformed into rare earth C-type structure when the proportion of Y ^3+ ions was beyond 0.5. Moreover, at the beginning, the degree of oxygen diffusion showed an uptrend; but after the proportion of Y ^3+ ions reached a certain value, the degree of oxygen diffusion turned into a downtrend.

Keywords