Effects of Al content on the oxygen permeability through dual-phase membrane 60Ce$_{0.9}$Pr$_{0.1}$O$_{2-\delta}$-40Pr$_{0.6}$Sr$_{0.4}$Fe$_{1-x}$Al$_x$O$_{3-\delta}$
Lei Shi, Shu Wang, Tianni Lu, Yuan He, Dong Yan, Qi Lan, Zhiang Xie,, Haoqi Wang, Mebrouka Boubeche, Huixia Luo

TL;DR
This study investigates how varying Al content affects the structure and oxygen permeability of dual-phase ceramic membranes, finding optimal Al doping enhances permeability and stability at high temperatures.
Contribution
It introduces a systematic analysis of Al doping effects on dual-phase membranes, demonstrating improved oxygen permeability and stability with specific Al concentrations.
Findings
Maximum oxygen permeability at x=0.4 Al content
Enhanced high-temperature stability and CO2 tolerance
Optimal Al doping increases membrane performance
Abstract
Ceramic dual-phase oxygen transport membranes with the composition of 60wt.% Ce0.9Pr0.1O2-{\delta}-40wt.%Pr0.6Sr0.4Fe1-xAlxO3-{\delta} (x = 0.05, 0.1, 0.2, 0.3, 0.4, 0.6, 0.8, 1.0) (60CPO-40PSF1-xAxO) based on 60Ce0.9Pr0.1O2-{\delta}-40Pr0.6Sr0.4FeO3-{\delta} doped Al was successfully synthesized through a modified Pechini method. Crystal structure, surface microtopography and oxygen permeability are investigated systematically. The cell parameters of perovskite phase first increased and then decreased with the increase of Al content, which is related to the radius of the Al3+ and the formation of impurity phase. As x ranges from 0.1 to 0.8, the oxygen permeability of the materials first increases and then decreases, and the maximum value of oxygen permeation rate for 60CPO-40PSF1-xAxO membranes with 0.4mm thickness at 1000 {\deg}C is 1.12 mL min-1 cm-2 when x = 0.4. XRD measurements…
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