The building blocks of life on Earth may have been fueled by tiny sparks hopping between water droplets. Four billion years ...

The equation shows that ammonium chloride (a white solid) can break down to form ammonia and ... reverse process. The reaction between anhydrous copper(II) sulfate and water is used as a test ...

Rice University engineers have developed a revolutionary reactor design that could decarbonize ammonia production while also ...

We may be starting to get a grasp on what kick-started life on Earth – and it could help us search for it on other planets ...

Instead, it may have started with tiny “micro lightning” sparks generated between water droplets from crashing waves or waterfalls. This fascinating new perspective comes from Stanford University ...

The researchers demonstrated that power by sending sprays of room temperature water into a gas mixture containing nitrogen, methane, carbon dioxide, and ammonia gases, which are all thought to be ...

Life on Earth may not have begun with a big lightning strike in the ocean, as scientists once thought. Instead, tiny electric sparks from crashing waves and waterfalls—called “microlightning”—might ...

Researchers developed a sustainable electrosynthesis method for NH3 from NO, achieving ampere-level current density in a pressurized electrolyzer.

Forget the dramatic lightning strike – life may have started with countless tiny sparks from crashing water droplets!

A study shows that electrical charges in sprays of water can cause chemical reactions that form organic molecules from inorganic materials. The findings provide evidence that microlightning may have ...