It is now well established that electrochemical systems can optimally perform only within a
narrow range of temperature. Exposure to temperatures outside this range adversely affects …

Proton ceramic electrochemical cells (PCECs) have attracted significant attention from
governmental institutions and research societies as an emerging technology for energy …

This review is devoted to membrane electrolysis, in particular utilizing ion-selective
membranes, as an important part of both existing and emerging industrial electrochemical …

The use of fresh water to produce green hydrogen fuel through the water electrolysis
process can exacerbate the challenges of water scarcity. Using non-potable water for this …

Electricity storage is needed on an unprecedented scale to sustain the ongoing transition of
electricity generation from fossil fuels to intermittent renewable energy sources like wind and …

Solid oxide electrolysis cells (SOECs) proffer a flexible and environmentally friendly solution
to reduce CO 2 emissions and/or produce H 2 fuel for various applications. The integration …

The transformation of electrical energy to hydrogen via water electrolysis consumes
considerable amount of fresh water and a productive use of nontraditional water sources …

The roadmap for the hydrogen uptake passes through the development of near-zero
emission and/or renewable technologies for hydrogen production. This is the rationale for …

This paper presents a mini-review in the field of energy storage using reversible solid oxide
cells (rSOCs) for development of energy storage systems for the future. Such energy storage …

Power-to-Gas (P2G) plays an important role in enhancing large-scale renewable energy
integration in power systems. As an emerging inter-disciplinary subject, P2G technology …