Performance of Pr2(Ni,Cu)O4+δ electrodes in protonic ceramic electrochemical cells with unseparated and separated gas spaces
Author:
Publisher
Elsevier BV
Subject
Materials Chemistry,Metals and Alloys,Polymers and Plastics,Mechanical Engineering,Mechanics of Materials,Ceramics and Composites
Reference62 articles.
1. A review of four case studies assessing the potential for hydrogen penetration of the future energy system
2. Hydrogen or batteries for grid storage? A net energy analysis
3. Highly efficient reversible protonic ceramic electrochemical cells for power generation and fuel production
4. Steam electrolysis by solid oxide electrolysis cells (SOECs) with proton-conducting oxides
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1. Control physicochemical and electrochemical properties of Pr1.6Cа0.4Ni0.6Cu0.4O4+δ as a prospective cathode material for solid oxide cells through the synthesis process;Solid State Sciences;2024-10
2. Optimized Pr1.6Ca0.4Ni1−yCuyO4+δ phases as promising electrode materials for CeO2- and BaCe(Zr)O3-based electrochemical cells;Ceramics International;2024-10
3. Tailoring the defect structure and functional properties of Pr2NiO4+δ via partial Pr-substitution with lanthanum and neodymium;Ceramics International;2024-10
4. PrBaFe2O6-δ-based composites as promising electrode materials for protonic ceramic electrochemical cells;Journal of the European Ceramic Society;2024-08
5. Cu, Zn Co-doped ruddlesden-popper La1·2Sr0·8NiO4+δ oxides as high-performance air electrodes of medium-temperature protonic ceramic electrolysis cells;Journal of Power Sources;2024-03
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