The transformation from combustion-based to renewable energy technologies is of
paramount importance due to the rapid depletion of fossil fuels and the dramatic increase in …

The pursuit of high metal utilization in multiphase catalysis has given rise to a growing
interest in atomically dispersed catalysts. Dual-atom catalysts (DACs) possess distinctive …

Green hydrogen, produced through water electrolysis powered by renewable energy, is an
essential component of future global energy systems. In this thematic issue of Chemical …

Perovskite oxides, particularly double perovskite oxides, have drawn significant research
interest within the fields of solid‐state chemistry and materials science. As a quintessential …

The co‐generation of electricity and chemicals via direct internal reforming solid oxide fuel
cells (DIR‐SOFCs) offers a promising route to carbon‐neutral energy solutions. However …

The energy conversion efficiency and durability of the reversible solid oxide cell (RSOC) is
restricted by the development of highly active and stable oxygen electrode. Herein, an in-situ …

Reversible protonic ceramic cells (R‐PCCs) have been in the spotlight as prominent
electrochemical devices for green hydrogen production and utilization. The design of …

Green hydrogen is the most promising option and a two in one remedy that resolve the
problem of both energy crisis and environmental pollution. Wide band gap semiconductors …

Proton‐conducting ceramic cells (PCCs), which include proton‐conducting ceramic fuel
cells (PCFCs) and proton‐conducting ceramic electrolysis cells (PCECs), have attracted …

The potential of applying ceramic proton-conducting electrolysis cell (PCEC) membranes in
ethylene production processes was explored in this work. To this end, the techno-economics …