Robocasting of 3D printed and sintered ceria scaffold structures with hierarchical porosity for solar thermochemical fuel production from the splitting of CO2 | Zendy

Basam A.E. Ben–Arfa | Zendy; Stéphane Abanades | Zendy; Isabel M. Miranda Salvado | Zendy; J.M.F. Ferreira | Zendy; Robert C. Pullar | Zendy

Open Access

Robocasting of 3D printed and sintered ceria scaffold structures with hierarchical porosity for solar thermochemical fuel production from the splitting of CO₂

Author(s) -

Basam A.E. Ben–Arfa,

Stéphane Abanades,

Isabel M. Miranda Salvado,

J.M.F. Ferreira,

Robert C. Pullar

Publication year - 2022

Publication title -

nanoscale

Language(s) - English

Resource type - Journals

SCImago Journal Rank - 2.038

H-Index - 224

eISSN - 2040-3372

pISSN - 2040-3364

DOI - 10.1039/d2nr00393g

Subject(s) - materials science , porosity , microporous material , thermogravimetric analysis , mesoporous material , chemical engineering , sintering , catalysis , specific surface area , composite material , chemistry , organic chemistry , engineering

We report the first ever robocast (additive manufacturing/3D printing) sintered ceria scaffolds, and explore their use for the production of renewable fuels via solar thermochemical fuel production using concentrated solar energy.

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