Cation-Deficient Ce-Substituted Perovskite Oxides with Dual-Redox Active Sites for Thermochemical Applications

Autor: Naik, J Madhusudhan, Bulfin, Brendan, Triana, Carlos A, Stoian, Dragos Constantin, Patzke, Greta R

Publikováno v: ACS Applied Materials & Interfaces, 15 (1)

Identifying thermodynamically favorable and stable non-stoichiometric metal oxides is of crucial importance for solar thermochemical (STC) fuel production via two-step redox cycles. The performance of a non-stoichiometric metal oxide depends on its t

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Design of Ce-Substituted Perovskite Oxide Materials for Solar Thermochemical CO2 and H2O Redox Splitting

Autor: Naik, J Madhusudhan

Externí odkaz: https://explore.openaire.eu/search/publication?articleId=doi_dedup___::cb5eec127fcaf630e65c0171e8845284

Reactive stability of promising scalable doped ceria materials for thermochemical two-step CO2 dissociation

Autor: Jacot, Roger, Naik, J Madhusudhan, Moré, René, Michalsky, Ronald, Steinfeld, Aldo, Patzke, Greta R

Publikováno v: Journal of Materials Chemistry A
Jacot, Roger; Naik, J Madhusudhan; Moré, René; Michalsky, Ronald; Steinfeld, Aldo; Patzke, Greta R (2018). Reactive stability of promising scalable doped ceria materials for thermochemical two-step CO2 dissociation. Journal of Materials Chemistry A, 6(14):5807-5816.
Journal of Materials Chemistry A, 6 (14)
Zurich Open Repository and Archive
Research Collection

Metal-doped ceria (Ce1−xMxO2−δ) is an attractive redox-active material for thermo/electrochemical synthesis of renewable fuels due to its high mixed ionic/electronic conductivity and variable valence (Ce4+/Ce3+) and oxygen nonstoichiometry (δ)

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https://doi.org/10.1039/c7ta10966k

Reversible Phase Transformations in Novel Ce‐Substituted Perovskite Oxide Composites for Solar Thermochemical Redox Splitting of CO2.

Autor: Naik, J. Madhusudhan¹ (AUTHOR) madhusudhan.jarpla@chem.uzh.ch, Ritter, Clemens² (AUTHOR), Bulfin, Brendan³ (AUTHOR), Steinfeld, Aldo³ (AUTHOR), Erni, Rolf⁴ (AUTHOR), Patzke, Greta R.¹ (AUTHOR) greta.patzke@chem.uzh.ch

Publikováno v: Advanced Energy Materials. 4/28/2021, Vol. 11 Issue 16, p1-15. 15p.

Reversible Phase Transformations in Novel Ce‐Substituted Perovskite Oxide Composites for Solar Thermochemical Redox Splitting of CO2

Autor: Naik, J. Madhusudhan, Ritter, Clemens, Bulfin, Brendan, Steinfeld, Aldo, Erni, Rolf, Patzke, Greta R.

Thermochemical splitting of CO2 and H2O via two‐step metal oxide redox cycles offers a promising approach to produce solar fuels. Perovskite‐type oxides with the general formula ABO3 have recently gained attention as an attractive redox material

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