Materials development for intermediate-temperature solid oxide electrochemical devices

A Aguadero, L Fawcett, S Taub, R Woolley… - Journal of Materials …, 2012 - Springer
One of the major challenges in developing electrochemical devices for energy generation
has been the identification and development of materials with outstanding performance at …

Electrode materials and reaction mechanisms in solid oxide fuel cells: a brief review. III. Recent trends and selected methodological aspects

EV Tsipis, VV Kharton - Journal of Solid State Electrochemistry, 2011 - Springer
Continuing previous reviews on mixed-conducting electrodes for intermediate-temperature
solid oxide fuel cells (IT SOFCs), this work presents a short overview of novel cathode and …

Solar thermochemical splitting of water to generate hydrogen

CNR Rao, S Dey - Proceedings of the national academy of …, 2017 - National Acad Sciences
Solar photochemical means of splitting water (artificial photosynthesis) to generate
hydrogen is emerging as a viable process. The solar thermochemical route also promises to …

Boosting CO2 directly electrolysis by electron doping in Sr2Fe1. 5Mo0. 5O6-δ double perovskite cathode

C Sun, L Bian, J Qi, W Yu, S Li, Y Hou, L Wang… - Journal of Power …, 2022 - Elsevier
Commercialization of solid oxide electrolysis cell (SOEC) depends on the development of
cathode materials with outstanding catalytic activity for CO 2 electroreduction. Herein, Pure …

Rational selection of MIEC materials in energy production processes

PM Geffroy, J Fouletier, N Richet, T Chartier - Chemical engineering …, 2013 - Elsevier
Mixed electronic and ionic conductors are of potential interest in improving the efficiency of
high temperature processes that require oxygen. One of the primary industrial applications …

Effect of oxygen vacancies on electrical conductivity of La 0.5 Sr 0.5 FeO 3− δ from first-principles calculations

Y Shin, KY Doh, SH Kim, JH Lee, H Bae… - Journal of Materials …, 2020 - pubs.rsc.org
We use first-principles density functional theory calculations to understand how oxygen
vacancies degrade the electrical conductivity of mixed ionic-electronic conductor (MIEC) at …

Structural, optical and magnetic properties of Sr and Ni co-doped YFeO3 nanoparticles prepared by simple co-precipitation method

DHT Pham, LTT Nguyen, VO Mittova, DH Chau… - Journal of Materials …, 2022 - Springer
Abstract YFeO3+ δ, Y0. 8Sr0. 2FeO3+ δ, YFe0. 8Ni0. 2O3+ δ, and Y0. 8Sr0. 2Fe0. 8Ni0.
2O3+ δ nanoparticles have been successfully synthesized by a simple co-precipitation …

[HTML][HTML] Co-free triple perovskite La1. 5Ba1. 5Cu3O7±δ as a promising air electrode material for solid oxide fuel cells

K Li, A Niemczyk, K Świerczek, A Stępień… - Journal of Power …, 2022 - Elsevier
Abstract La 1.5 Ba 1.5 Cu 3 O 7±δ (LBCu) complex oxide is evaluated as a Co-free
candidate air electrode material for reversible Solid Oxide Cells (rSOC). LBCu is structurally …

Highly stable La0. 5Sr0. 5Fe0. 9Mo0. 1O3-δ electrode for reversible symmetric solid oxide cells

L Bian, C Liu, S Li, J Peng, X Li, L Guan, Y Liu… - International Journal of …, 2020 - Elsevier
Reversible solid oxide cells (RSOCs) using identical material as both fuel electrode and air
electrode have received extensive attentions due to their simplified fabrication process …

A CO 2-stable reduction-tolerant Nd-containing dual phase membrane for oxyfuel CO 2 capture

H Luo, T Klande, Z Cao, F Liang, H Wang… - Journal of Materials …, 2014 - pubs.rsc.org
We report a novel CO2-stable reduction-tolerant dual-phase oxygen transport membrane 40
wt% Nd0. 6Sr0. 4FeO3− δ–60 wt% Ce0. 9Nd0. 1O2− δ (40NSFO–60CNO), which was …