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High temperature solid oxide electrolysis for green hydrogen production
Global warming and energy crises have motivated the development of renewable energy
and its energy carriers. Green hydrogen is the most promising renewable energy carrier and …
and its energy carriers. Green hydrogen is the most promising renewable energy carrier and …
The approaches to conducting in-situ heterostructure electrodes for SOCs: A mini review
Y Gao, K Liu, L Qi, Z Hou, Y Chang, Z Tao - Sustainable Materials and …, 2024 - Elsevier
Solid oxide cells (SOCs) are renowned for their high efficiency in the direct conversion of
various fuels into electricity, as well as their capacity to produce green hydrogen or added …
various fuels into electricity, as well as their capacity to produce green hydrogen or added …
[HTML][HTML] openFuelCell2: A new computational tool for fuel cells, electrolyzers, and other electrochemical devices and processes
Fuel cells/electrolyzers are efficient and clean electrochemical devices that convert chemical
energy directly into electricity and vice versa. They have attracted sustainable attention over …
energy directly into electricity and vice versa. They have attracted sustainable attention over …
Facile construction of nanostructured cermet anodes with strong metal–oxide interaction for efficient and durable solid oxide fuel cells
B Wang, Z Yue, Z Chen, Y Zhang, H Fang, N Ai… - Small, 2023 - Wiley Online Library
Nanostructured anodes generate massive reaction sites to oxidize fuels in solid oxide fuel
cells (SOFCs); however, the nonexistence of a practically viable approach for the …
cells (SOFCs); however, the nonexistence of a practically viable approach for the …
Milestones of electrocatalyst development for direct alcohol fuel cells
With increasing energy demands and environmental issues, renewable energy‐related
conversion systems have gained significant attention as a potential substitute for traditional …
conversion systems have gained significant attention as a potential substitute for traditional …
Integrated 3D modeling unravels the measures to mitigate nickel migration in solid oxide fuel/electrolysis cells
Numerical modeling plays an important role in understanding the multi-physics coupling in
solid oxide fuel/electrolysis cells (SOFCs/SOECs) operated at elevated temperatures. During …
solid oxide fuel/electrolysis cells (SOFCs/SOECs) operated at elevated temperatures. During …
Boosting the performance and durability of heterogeneous electrodes for solid oxide electrochemical cells utilizing a data-driven powder-to-power framework
Solid oxide electrochemical cells (SOCs) hold potential as a critical component in the future
landscape of renewable energy storage and conversion systems. However, the …
landscape of renewable energy storage and conversion systems. However, the …
Prediction of fuel cell performance degradation using a combined approach of machine learning and impedance spectroscopy
Accurate prediction of performance degradation in complex systems such as solid oxide fuel
cells is crucial for expediting technological advancements. However, significant challenges …
cells is crucial for expediting technological advancements. However, significant challenges …
π Learning: A Performance‐Informed Framework for Microstructural Electrode Design
Designing high‐performance porous electrodes is the key to next‐generation
electrochemical energy devices. Current machine‐learning‐based electrode design …
electrochemical energy devices. Current machine‐learning‐based electrode design …
[HTML][HTML] Advantages of ionic conductors over electronic conductors as infiltrates in solid oxide fuel cell cathodes
To investigate the difference between ionic and electronic conductors as infiltrates in solid
oxide fuel cells (SOFCs), high-throughput and high-performance finite element simulations …
oxide fuel cells (SOFCs), high-throughput and high-performance finite element simulations …