Solid oxide fuel cell: Decade of progress, future perspectives and challenges
In an increasing demand of renewable energy resources, fuel cell represents the highly
efficient, clean and sustainable energy conversion source. Broadly speaking, fuel cell can …
efficient, clean and sustainable energy conversion source. Broadly speaking, fuel cell can …
Tailoring SOFC electrode microstructures for improved performance
PA Connor, X Yue, CD Savaniu, R Price… - Advanced Energy …, 2018 - Wiley Online Library
The key technical challenges that fuel cell developers need to address are performance,
durability, and cost. All three need to be achieved in parallel; however, there are often …
durability, and cost. All three need to be achieved in parallel; however, there are often …
In situ exsolution of ceria nanoparticles in perovskite cathode for elevating CO2 reduction performance of solid oxide electrolysis cells (SOECs)
The CO 2 electrochemical reduction process has been executed utilizing a solid oxide
electrolysis cell, incorporating advanced cathode materials: A-site deficient calcium-doped …
electrolysis cell, incorporating advanced cathode materials: A-site deficient calcium-doped …
Influence of Ni concentration on electrochemical and crystallographic properties of La0. 25Sr0. 25Ca0. 4Ti1− xNixO3− δ solid oxide fuel cell anode
In this work, we studied the effects of Ni-doping level on the catalytic activity, stability and
mobility of A-site cations of the La 0.25 Sr 0.25 Ca 0.4 TiO 3− δ (LSCT) fuel electrode …
mobility of A-site cations of the La 0.25 Sr 0.25 Ca 0.4 TiO 3− δ (LSCT) fuel electrode …
Upscaling of Co‐Impregnated La0.20Sr0.25Ca0.45TiO3 Anodes for Solid Oxide Fuel Cells: A Progress Report on a Decade of Academic‐Industrial Collaboration
Solid oxide fuel cell (SOFC) stack technology offers a reliable, efficient, and clean method of
sustainable heat and electricity co‐generation that can be integrated into micro‐combined …
sustainable heat and electricity co‐generation that can be integrated into micro‐combined …
A Theoretical Study of Oxygen Anion Diffusion through the A-Site Deficient SrTiO3 Lattice Structure: A Machine Learning Approach
The performance of strontium titanate-based perovskite materials, widely employed as
electrode materials for reversible solid oxide cells, is directly characterized by their efficiency …
electrode materials for reversible solid oxide cells, is directly characterized by their efficiency …
Cobalt and molybdenum co-doped Ca2Fe2O5 cathode for solid oxide fuel cell
Abstract Recently, Brownmillerite oxides Ca 2 Fe 2-x M x O 5 (0≤ x≤ 0.2)(M= transition
metal such as Co, Mo), have been drawing attention as they possess mixed ionic and …
metal such as Co, Mo), have been drawing attention as they possess mixed ionic and …
Harnessing the electrocatalytic potential of in-situ exsolution of Ni nanoparticles on lanthanum and calcium co-doped strontium titanate for CO2 reduction in solid …
The exsolution phenomenon of metal nanoparticles from a perovskite oxide involves the
creation of oxygen vacancies, contributing to improved catalytic activity for CO 2 reduction. In …
creation of oxygen vacancies, contributing to improved catalytic activity for CO 2 reduction. In …
Enhanced coking resistance of Ni cermet anodes for solid oxide fuel cells based on methane on‐cell reforming by a redox‐stable double‐perovskite Sr2MoFeO6‐δ
Carbon deposition on a Ni‐based anode is troublesome for the direct power generation from
methane‐based fuels using solid oxide fuel cell. In this paper, a redox‐stable double …
methane‐based fuels using solid oxide fuel cell. In this paper, a redox‐stable double …
Ni-Free SOFC Anode Material with Thermal and Redox Stabilities for the Direct Utilization of Ethanol
SA Venâncio, PEV de Miranda - Catalysts, 2023 - mdpi.com
The direct utilization of anhydrous ethanol in solid oxide fuel cells (SOFC), with oxygen-
storage anode materials of the type Cu-(ZrxCe1− xY0. 2O2− δ-Al2O3), is presented. The …
storage anode materials of the type Cu-(ZrxCe1− xY0. 2O2− δ-Al2O3), is presented. The …