Symmetrical solid oxide cells (SSOCs) with identical air and fuel electrodes have gained
significant scientific interest in the last decade because they offer several advantages over …

The emerging of fuel cell as one of the promising future energy sources is due to its vast
advantages and applications. Despite many challenges to commercialize it, nanostructured …

Low-temperature solid oxide fuel cells (LT-SOFCs), operating below 650° C, are attracting a
great interest due to their long-term stability and potential application for stationary and …

Apart from conventional composite materials, in situ exsolution for constructing the
heterostructure is one of the most effective strategies to design the high-performance electro …

Nanocomposites exhibit improved electrochemical and mechanical properties compared to
single-phase materials, making them promising for the development of efficient and durable …

The development of nanostructured electrodes of solid oxide cells is largely hindered by the
high temperature sintering process and limited in the loading and choices of catalytic …

Since the double perovskite oxides Sr 2 Mg 1-x Mn x MoO 6− δ were reported as anode
materials for solid oxide fuel cells (SOFCs) by Professor Goodenough in 2006, they have …

The poor temperature activity and durability due to surface Sr segregation are two main
challenges restricting the practicability of state-of-the-art La1–x Sr x Co1–y Fe y O3 (LSCF) …

La0. 98Cr0. 75Mn0. 25O3− δ–Ce0. 9Gd0. 1O1. 95 (LCM-CGO) nanocomposite layers with
different LCM contents, between 40 and 60 wt%, are prepared in a single step by a spray …

In this work, a deep learning accelerated homogenization framework is developed for
prediction of elastic modulus of porous materials directly from their inner microstructures …