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Journal of Membrane Science

Volumn 369, Issue 1-2, 2011, Pages 174-181

Oxygen permeation study and improvement of Ba0.5Sr0.5Co0.8Fe0.2Ox perovskite ceramic membranes

(3) Jiang, Qiying a Nordheden, Karen J a Stagg Williams, Susan M a

a UNIVERSITY OF KANSAS (United States)

Author keywords

Asymmetric membrane; Ba0.5Sr0.5Co0.8Fe0.2Ox; Ceramics; Membrane; Oxygen permeation; Perovskite

Indexed keywords

AG CATALYSTS; AIR SEPARATION; ASYMMETRIC GEOMETRY; ASYMMETRIC MEMBRANES; BA0.5SR0.5CO0.8FE0.2OX; CATALYTIC CONVERSION; CERAMICS; DENSE LAYER; DRY-PRESSING; ELECTRON BEAM EVAPORATION METHODS; MEMBRANE REACTOR; MEMBRANE SURFACE; MIXED CONDUCTING MATERIALS; OXYGEN FLUXES; OXYGEN PERMEABILITY; OXYGEN PERMEATION; PEROVSKITE CERAMICS; POROUS SUBSTRATES; THIN LAYERS;

BARIUM; BIOREACTORS; CATALYSTS; CERAMIC MEMBRANES; ELECTRON BEAMS; OXYGEN; OXYGEN PERMEABLE MEMBRANES; PEROVSKITE; PHOTOLITHOGRAPHY; PLATINUM;

PERMEATION; MEMBRANES;

BARIUM; COBALT; IRON; OXYGEN; PEROVSKITE; STRONTIUM; EDETIC ACID;

ARTICLE; ARTIFICIAL MEMBRANE; CATALYSIS; CERAMIC MEMBRANE; COMPOSITE MATERIAL; ELECTRON BEAM; EVAPORATION; GAS PERMEABILITY; MEMBRANE PERMEABILITY; MEMBRANE REACTOR; MEMBRANE RESISTANCE; POROSITY; PRIORITY JOURNAL; SEPARATION TECHNIQUE; THICKNESS; CATALYST; CERAMICS; CRYSTAL STRUCTURE; GEOMETRY; MEMBRANE TRANSPORT; OXYGEN DIFFUSION; OXYGEN SUPPLY; OXYGEN TRANSPORT; TEMPERATURE DEPENDENCE; X RAY DIFFRACTION;

EID: 79251615895 PISSN: 03767388 EISSN: None Source Type: Journal
DOI: 10.1016/j.memsci.2010.11.073 Document Type: Article

Times cited : (33)

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