Gas separation in dense ceramic membranes is driven by the partial pressure gradient across the membrane. The mixed conducting materials most commonly used are single …
Membrane technology has the potential to perform separation tasks more efficiently than other technologies. Polymeric membranes, in particular, are widely used in different …
Abstract La 0.98− x Sr x Co 0.2 Fe 0.8 O 3− δ (LSCF) is a candidate material for use as an oxygen transport membrane (OTM). In this work, fabrication-relevant properties (sintering …
Steam electrolysis constitutes a prospective technology for industrial-scale hydrogen production. The use of ceramic proton-conducting electrolytes is a beneficial option for …
A novel route was developed to fabricate anode‐supported solid oxide fuel cells with a high throughput and low manufacturing costs. In contrast to classical manufacturing routes, this …
Abstract La 5.4 WO 12− δ (LaWO) is a promising membrane candidate for a variety of H 2- related applications due to its appreciable levels of mixed proton–electron conduction and …
J Garcia-Fayos, JM Serra, MWJ Luiten-Olieman… - Advanced ceramics for …, 2020 - Elsevier
Ceramic membranes can be used for the separation of single gases from gas mixtures or in membrane reactors. Ceramic membrane reactors (CMR) offer an opportunity to combine …
J Wheaton, S Kmiec, D Schuler… - ACS Applied Energy …, 2021 - ACS Publications
Lithium metaphosphate (LiPO3) thin-film glassy solid-state electrolyte (GSSE) ribbons with thicknesses varying from 35 to 800 μm have been drawn for the first time through softening …
New oxygen transport membrane materials based on SrTi 1-x Fe x O 3-δ, synthesized through solid state reaction and processed via tape casting were characterized with respect …