In-Situ catalytic surface modification of micro-structured La_0.6Sr_0.4Co_0.2Fe_0.8O_3-δ (LSCF) Oxygen Permeable Membrane Using Vacuum-Assisted technique

Engineering & Materials Science

• Oxygen permeable membranes 100%
• Surface treatment 53%
• Vacuum 44%
• Catalysts 43%
• Membranes 32%
• Sols 26%
• Calcination 24%
• Microchannels 20%
• Perovskite 17%
• Oxygen 15%
• Heating rate 14%
• Viscosity 10%
• Sol-gels 8%
• Chemical analysis 8%
• X-Ray Emission Spectrometry 8%
• Permeation 7%
• Temperature 5%
• Scanning electron microscopy 5%
• Substrates 4%
• Fibers 4%

Chemistry

• Surface Modification 43%
• Dioxygen 24%
• Catalyst 21%
• Sol 20%
• Calcination Temperature 14%
• Homogeneous Catalyst 8%
• Deposition Technique 7%
• Purity 7%
• Energy Dispersive X-Ray Spectroscopy 6%
• Calcination 6%
• Vacuum 5%
• Chemical Element 5%
• Elemental Analysis 5%
• Fiber 4%
• Amount 3%
• Surface 2%