Solid oxide electrolysis cells–current material development and industrial application
Solid Oxide Electrolysis Cells (SOECs) have proven to be a highly efficient key technology
for producing valuable chemicals and fuels from renewably generated electricity at …
for producing valuable chemicals and fuels from renewably generated electricity at …
[PDF][PDF] Recent advances in high-temperature steam electrolysis with solid oxide electrolysers for green hydrogen production
Hydrogen is known to be the carbon-neutral alternative energy carrier with the highest
energy density. Currently, more than 95% of hydrogen production technologies rely on fossil …
energy density. Currently, more than 95% of hydrogen production technologies rely on fossil …
[HTML][HTML] Enhanced diffusion barrier layers for avoiding degradation in SOFCs aged for 14000 h during 2 years
Electrolyte-cathode interfaces are critical regions of solid oxide fuel cells where important
degradation phenomena are localized due to cation interdiffusion and reactivity. State-of-the …
degradation phenomena are localized due to cation interdiffusion and reactivity. State-of-the …
[HTML][HTML] Performance, electrochemical process analysis and degradation of gadolinium doped ceria as fuel electrode material for solid oxide electrolysis cells
One major challenge that has to be solved to enable a market entry of solid oxide
electrolysis cells (SOECs) technology is the poor degradation behaviour caused by nickel …
electrolysis cells (SOECs) technology is the poor degradation behaviour caused by nickel …
[HTML][HTML] Rational design of Sr2Fe1. 5Mo0. 4Y0. 1O6-δ oxygen electrode with triple conduction for hydrogen production in protonic ceramic electrolysis cell
R Ren, J Sun, G Wang, C Xu, J Qiao, W Sun… - Separation and …, 2022 - Elsevier
Protonic ceramic electrolysis cells (PCECs) are emerging as potential technology to achieve
efficient electrochemical hydrogen production and purification due to their high conversion …
efficient electrochemical hydrogen production and purification due to their high conversion …
[HTML][HTML] Electrochemical impedance analysis and degradation behavior of a Ni-GDC fuel electrode containing single cell in direct CO2 electrolysis
The challenges of high degradation rate and significant carbon deposition, which are
common with Ni-YSZ electrodes, have shifted attention to other electrode materials with …
common with Ni-YSZ electrodes, have shifted attention to other electrode materials with …
High-Performance (Ce, Zr)O2-Free Solid Oxide Fuel Cell with an Active-Sintered Cathode Interface and a Low-Temperature Densified Micron-Scale Barrier Layer
Q Lyu, T Zhu, N Xu, H Qu, Q Zhong - ACS Applied Materials & …, 2023 - ACS Publications
Incorporating a dense GDC (Gd0. 1Ce0. 9O1. 95) barrier layer is an effective strategy to
avoid harmful reactions between the LSCF (La0. 6Sr0. 4Co0. 2Fe0. 8O3− δ) cathode and …
avoid harmful reactions between the LSCF (La0. 6Sr0. 4Co0. 2Fe0. 8O3− δ) cathode and …
[HTML][HTML] A Multiscale model validated on local current measurements for understanding the solid oxide cells performances
A physical-based model has been developed and validated to unravel the complex
relationships between the global solid oxide cells response and the reaction mechanisms …
relationships between the global solid oxide cells response and the reaction mechanisms …
Performance and degradation of electrolyte-supported single cell composed of Mo-Au-Ni/GDC fuel electrode and LSCF oxygen electrode during high temperature …
V Vibhu, IC Vinke, F Zaravelis, SG Neophytides… - Energies, 2022 - mdpi.com
Ni-gadolinia-doped ceria (GDC) based electrode materials have drawn significant attention
as an alternative fuel electrode for solid oxide cells (SOCs) owing to mixed ionic conductivity …
as an alternative fuel electrode for solid oxide cells (SOCs) owing to mixed ionic conductivity …
Recent Advances in High-Temperature Steam Electrolysis with Solid Oxide Electrolysers for Green Hydrogen Production
Hydrogen is known to be the carbon-neutral alternative energy carrier with the highest
energy density. Currently, more than 95% of hydrogen production technologies rely on fossil …
energy density. Currently, more than 95% of hydrogen production technologies rely on fossil …