The 60CPO-40PSFAO dual-phase membrane reaches 1.03 mL cm^{-2} min^{-1} oxygen flux at 1000°C with phase stability in CO2 for over 100 h.
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physics.app-ph 3years
2019 3verdicts
UNVERDICTED 3representative citing papers
Al doping in 60CPO-40PSF dual-phase membranes optimizes oxygen permeability at x=0.4 with a rate of 1.12 mL min^{-1} cm^{-2} at 1000°C while preserving stability.
60CPO-40PCFO dual-phase membrane reaches 1.00 mL cm^{-2} min^{-1} oxygen flux at 1000°C under air/He gradient with reported CO2 stability.
citing papers explorer
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High CO2-tolerance oxygen permeation dual-phase membranes Ce0.9Pr0.1O2-{\delta}-Pr0.6Sr0.4Fe0.8Al0.2O3-{\delta}
The 60CPO-40PSFAO dual-phase membrane reaches 1.03 mL cm^{-2} min^{-1} oxygen flux at 1000°C with phase stability in CO2 for over 100 h.
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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$_{3-\delta}$
Al doping in 60CPO-40PSF dual-phase membranes optimizes oxygen permeability at x=0.4 with a rate of 1.12 mL min^{-1} cm^{-2} at 1000°C while preserving stability.
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High-flux dual-phase percolation membrane for oxygen separation
60CPO-40PCFO dual-phase membrane reaches 1.00 mL cm^{-2} min^{-1} oxygen flux at 1000°C under air/He gradient with reported CO2 stability.