BaCoO3基透氧材料的B位掺杂优化

采用传统的固相合成法制备BaCo_0.9-xFe_xNb_0.1O3-δ(BC0.9-xFxN0.1O, x=0.1,0.2,0.3,0.4)和BaCo_1-yNb_yO_3-δ(BC_1-yN_yO,y=0.10,0.12,0.14,0.16)混合导体透氧膜材料，较系统地研究Fe和Nb掺杂量对BC_0.9-xF_xN_0.1O和BC_1-yN_yO的晶体结构、晶粒大小、结构稳定性以及透氧率的影响.结果表明：Fe和Nb掺杂有助于提高BaCoO₃基钙钛矿材料的结构稳定性，但会降低材料的透氧能力；与Fe相比，Nb掺杂能够更有效地提高材料的高温化学稳定性，并细化晶粒；厚度为1 mm的BaCo_0.88Nb_0.12O_3-δ膜片在850 ℃和Air/He（110 mL·min^-1/80 mL·min^-1）的吹扫条件下，透氧率为2.02 mL·cm-²·min^-1.

Optimization of BaCoO3 Based Perovskite by B-Site Compositional Tailoring

BaCo0.9-xFexNb0.1O3-δ(BC0.9-xFxN0.1O,x=0.1,0.2,0.3,0.4) and BaCo1-yNbyO3-δ(BC1-yNyO,y=0.10,0.12,0.14,0.16) were prepared in a conventional solid state reaction process.The influence of iron and niobium doping level on crystal structure,grain size,structural stability,and oxygen permeation of BC0.9-xFxN0.1O and BC1-yNyO compounds was investigated systematically.Increase of iron and niobium doping content resulted in the increase of the structural stability of oxides and the decrease of oxygen flux.The niobium doping level in oxides could enhance stability and refine the grain size of compounds more effectively than Fe.The oxygen flux of BaCo0.88Nb0.12O3-δ with 1 mm thickness reaches 2.02 mL·cm-2·min-1 at 850 ℃ under air/helium condition.