Add to ORKGIn this work, a colloidal processing route for dense asymmetric La28-xW4+xO54+3x/2 membranes for hydrogen gas separation applications was established. Dip coating process conditions were optimized to obtain ≈20 m thick dense layer supported on a porous substrate of the same composition. Surfactants based on electrostearic stabilization were evaluated to obtain stable suspensions in ethanol. The effect of the quantity and type (rice starch and carbon black) of sacrificial pore formers was evaluated for the porous substrates. Based on our results, samples made with 35- 45 vol.% carbon black are the best choice to obtain highly porous supports with the optimum characteristics for the fabrication of asymmetric membranes
Lanthanum tungstate (La6WO12) is a promising material for the development of hydrogen separation mem...
In this study, the oxygen permeation and stability properties of disk shaped and asymmetric membrane...
Development of high-performance asymmetric membranes is a major breakthrough in membrane technology....
In the context of energy conversion efficiency and decreasing greenhouse gas emissions from power ge...
Ceramic membranes made from mixed ionic and electronic conductive oxide materials have received much...
Mixed protonic and electronic conducting ceramic membranes offer a high potential to separate pure h...
Abstract: Mixed protonic and electronic conducting ceramic membranes offer a high potential to separ...
AbstractLa5.4WO12−δ (LaWO) is a promising membrane candidate for a variety of H2-related application...
La5.4WO12−δ (LaWO) is a promising membrane candidate for a variety of H2-related applications due to...
The performance of ceramic gas separation membranes can be increased by reducing their thickness. To...
Production of asymmetric ceramic membranes intended for oxygen gas separation was done by producing ...
Hydrogen separation through oxygen transport membranes (OTMs) has attracted much attention. Asymmetr...
Hydrogen separation membranes offer a promising possibility to separate pure hydrogen from gas mixtu...
Selectivity and permeability of asymmetric membrane characterize its performance for gas separation ...
Lanthanum tungstate (La6 WO12 ) is a promising material for the development of hydrogen separation m...
Lanthanum tungstate (La6WO12) is a promising material for the development of hydrogen separation mem...
In this study, the oxygen permeation and stability properties of disk shaped and asymmetric membrane...
Development of high-performance asymmetric membranes is a major breakthrough in membrane technology....
In the context of energy conversion efficiency and decreasing greenhouse gas emissions from power ge...
Ceramic membranes made from mixed ionic and electronic conductive oxide materials have received much...
Mixed protonic and electronic conducting ceramic membranes offer a high potential to separate pure h...
Abstract: Mixed protonic and electronic conducting ceramic membranes offer a high potential to separ...
AbstractLa5.4WO12−δ (LaWO) is a promising membrane candidate for a variety of H2-related application...
La5.4WO12−δ (LaWO) is a promising membrane candidate for a variety of H2-related applications due to...
The performance of ceramic gas separation membranes can be increased by reducing their thickness. To...
Production of asymmetric ceramic membranes intended for oxygen gas separation was done by producing ...
Hydrogen separation through oxygen transport membranes (OTMs) has attracted much attention. Asymmetr...
Hydrogen separation membranes offer a promising possibility to separate pure hydrogen from gas mixtu...
Selectivity and permeability of asymmetric membrane characterize its performance for gas separation ...
Lanthanum tungstate (La6 WO12 ) is a promising material for the development of hydrogen separation m...
Lanthanum tungstate (La6WO12) is a promising material for the development of hydrogen separation mem...
In this study, the oxygen permeation and stability properties of disk shaped and asymmetric membrane...
Development of high-performance asymmetric membranes is a major breakthrough in membrane technology....