The lattice Boltzmann method (LBM) plays an important role in the study of the internal flow
behavior at the pore-scale inside the electrodes of solid oxide fuel cells (SOFCs). Porosity …

In recent years, the solid oxide fuel cell (SOFC) scientific community has invested
continuous efforts to employ artificial intelligence methods to design and develop new …

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 …

Ni coarsening and migration in the Ni-based fuel electrode are the major degradation
mechanisms that lead to performance deterioration and reduced durability of solid oxide …

Composite engineering is one of the most practical strategies for mitigating thermo-
mechanical instability in state-of-the-art cobalt-based mixed ionic-electronic conducting …

A reversible solid oxide cell can work as a fuel cell (FC) or an electrolyzer cell (EC) with
superior efficiency in a single device, which has the potential to become the core of energy …

Solid oxide fuel cell (SOFC) electrode microstructures composed of catalyst, electrolyte and
pore phases with various microstructural features are synthetically generated and the effects …

The external clamping pressure (CP) has a significant influence on the morphology,
transport characteristics, and performance of catalyst layers (CLs) of the proton exchange …

Fuel cells are promising as a clean energy conversion device in the era of global warming
threat. Solid oxide fuel cells stand out among other fuel cell types because they are …

A comprehensive multiphysics 3D model of an anode‐supported planar reversible solid
oxide cell (rSOC) with a half‐channel‐unit‐cell geometry is created and validated. The …