Dendritic silver self-assembly in molten-carbonate membranes for efficient carbon dioxide capture
Liam A Mcneil
Greg Mutch
Francesco Iacoviello
Josh Bailey
Georgios D. Triantafillou
Dragos Neagu
Thomas Miller
Evangelos Papaioannou
Wenting Hu
Dan Brett
Paul Shearing
Ian S. Metcalfe
10.25405/data.ncl.9608369.v1
https://data.ncl.ac.uk/articles/dataset/Dendritic_silver_self-assembly_in_molten-carbonate_membranes_for_efficient_carbon_dioxide_capture/9608369
<div>In this work, the dendritic growth of silver within a supported molten-salt membrane was exploited to produce membranes with unparalleled carbon dioxide flux. Dendritic growth was evidenced using X-ray micro-CT and conductivity measurements. Multiple pore tubular membranes were fabricated, as well as randomly porous membranes. In both geometries, silver dendritic growth occurred and resulted in enhanced flux. A selection of the membranes provided agenda-setting carbon dioxide fluxes, and approached or bettered the permeance, selectivity and permeability requirements for economically-competitive carbon dioxide capture.</div><div><br></div>Look at the README file for description of data and processing etc.
2020-05-04 09:53:48
Carbon capture
membrane separation process
Ceramic membrane
Molten salts
Carbon Capture Engineering (excl. Sequestration)
Ceramics
Membrane and Separation Technologies