Effect of preparation method on the microstructure and optical properties of Y2O3–MgO composite ceramics

Xi Zhang; Xiao Li; Jun Yin; Shengquan Yu; Jing Wan

doi:10.1142/S2010135X24500188

Journals >Journal of Advanced Dielectrics >Volume 15 >Issue 2 >Page 2450018 > Article

Journal of Advanced Dielectrics
Vol. 15, Issue 2, 2450018 (2025)

Effect of preparation method on the microstructure and optical properties of Y₂O₃–MgO composite ceramics

Xi Zhang, Xiao Li, Jun Yin, Shengquan Yu^*, and Jing Wan^**

DOI: 10.1142/S2010135X24500188 Cite this Article

Xi Zhang, Xiao Li, Jun Yin, Shengquan Yu, Jing Wan. Effect of preparation method on the microstructure and optical properties of Y₂O₃–MgO composite ceramics[J]. Journal of Advanced Dielectrics, 2025, 15(2): 2450018 Copy Citation Text

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Abstract

Yttrium oxide–magnesium oxide (Y₂O₃–MgO) composite nanopowders were synthesized via three distinct methods: sol–gel, co-precipitation and glycine–nitrate process. The synthesized powders were calcined at various temperatures, and their microstructure, specific surface area and particle size were characterized. A comparative study was conducted to assess the impact of the synthesis method on the microstructure and transparency of the resulting ceramic sintering. Notably, the powder synthesized by the sol–gel technique exhibited the highest specific surface area and superior light transmittance, reaching a maximum of 85.33% at a wavelength of 5.31