A nickel catalyst defies precious metals, unlocking high-performance fuel cells that could transform energy for vehicles, ...

A high acid environment is great for a snappy hydrogen oxidation reaction—the reaction at the heart of a clean-energy fuel ...

New platinum free fuel cell design cuts costs and could accelerate adoption of hydrogen based clean energy systems.

Researchers developed platinum-calcium alloy nanoparticles that improve both efficiency and durability of hydrogen fuel cells using a liquid-phase synthesis method. Previous studies had suggested that ...

Anion exchange membranes (AEMs) have emerged as a critical component in the development of cost-effective and environmentally sustainable fuel cell systems. These polymeric membranes, designed with ...

A research team led by Professor Jong-sung Yu of the Department of Energy Science and Engineering at DGIST (President Kunwoo Kim) has successfully synthesized platinum-calcium alloy nanoparticles ...

1.0 Introduction -- 1.1 What is a Fuel Cell? -- 1.1.1 Comparison with Batteries -- 1.1.2 Comparison with Heat Engine -- 1.2 Why Do We Need Fuel Cells? -- 1.2.1 Portable Sector -- 1.2.2 Transportation ...

Researchers successfully recovered graphite from spent lithium-ion batteries and engineered it into a high-performance material through chemical exfoliation.

Fuel cells powered by hydrogen are widely seen as a clean alternative to fossil ...

If we asked you to think of a device that converts a chemical reaction into electricity, you’d probably say we were thinking of a battery. That’s true, but there is another device that does this that ...