A research team has developed a high-efficiency electrochemical system that simultaneously produces hydrogen and value-added ...

Hydrogen is often described as the fuel of the future—a clean, energy-dense way to store renewable power and decarbonize ...

Solid oxide fuel cells (SOFCs) and solid oxide electrolysis cells (SOECs) are emerging as pivotal technologies for a low-carbon energy system, offering a rare ability to both generate electricity and ...

A Korean research team has developed a two-electrode-based real-time diagnostic technology capable of precisely analyzing the ...

This approach is extremely attractive from an environmental standpoint because there are no greenhouse gases produced when using hydrogen in a fuel cell and the mild conditions used during ...

When Mechanical Engineer Fleur de Peralta visited her native Guam in 2021, a question began to form in her mind. How could she bring the engineering and energy expertise of her employer, Pacific ...

Roadmap of Dual-Value Electrosynthesis. This schematic illustrates the integrated framework of advanced electrosynthesis systems that couple oxygen evolution reaction (OER) alternatives with reduction ...

The concept of high-temperature electrochemistry has broad ranging applications in multiple fields; however, researchers yet remain to conduct real-time observations to gain in-depth understanding of ...

New electrochemical processes are emerging to recycle lithium batteries and refine lithium compounds with lower costs, emissions, and chemical waste than traditional methods. Startups in Singapore and ...

Lithium-iron-phosphate (LFP) batteries offer a compelling combination of performance characteristics for stationary energy storage, including improved safety and longevity, when compared to other ...