Researchers have discovered a new method by which a catalyst can be used to selectively burn one molecule in a mixture of hydrocarbons -- compounds made of hydrogen and carbon atoms.

DGIST's Professor Chiyoung Park's team has developed a catalytic technology that effectively removes additives that hinder ...

A study by researchers at Michigan State University has unearthed a new source of trihydrogen, often referred to as “the ...

With the EPA’s final ruling favoring carbon capture over hydrogen co-firing, hydrogen’s potential further favors industries ...

Maintaining optimal health and wellness has become more crucial in today’s fast-paced world. Hydration plays a vital role in our overall well-being, and for many, the quest for the perfect solution ...

Water isn't just liquid, ice, or vapor — under extreme conditions, it can transform into exotic phases, such as the newly observed plastic ice VII. This hybrid phase, predicted years ago but only ...

Bioethanol made from fermented agricultural waste can be turned into zero-carbon hydrogen through a new process that uses ...

A spark of algorithmic alchemy brought together Hopkins alum Taylor Krause and Garrett Josemans, who met and married thanks ...

"With our findings, we can communicate with others who are looking for sources of H 3+ and the molecules that can form it." ...

Researchers at the Karlsruhe Institute of Technology (KIT) have synthesized a Bi5⁻ ring, a molecule with five bismuth atoms, ...

Camfil's latest guide explores how molecular air filtration tackles sterilant challenges in industries, enhancing worker ...

In the vast expanse of space, where stars are born and planets take shape, one molecule plays a crucial role in interstellar ...