Researchers have developed a catalyst-driven method to selectively burn one molecule in a hydrocarbon mixture, offering a more efficient way to remove pollutants. This approach could improve processes ...

Stars form in Giant Molecular Clouds (GMCs), vast clouds of mostly hydrogen that can span tens of light years. These stellar ...

Rubidium could be the next key player in oxide-ion conductors. Researchers have discovered a rare rubidium (Rb)-containing oxide-ion conductor with exceptionally high conductivity. Identified through ...

H3+, known as "the molecule that made the universe," plays a crucial role in interstellar chemistry and the birth of stars.

The trick to creating a better quantum sensor is to give it a little ‘squeeze’ American and Canadian scientists have ...

Two new catalyst systems take aim at these problems. One catalyst splits ethanol to give hydrogen at 270 °C and produces ...

Stars emerge from vast regions of gas and dust known as molecular clouds. These stellar nurseries, often spanning hundreds of ...

Rubidium could be the next key player in oxide-ion conductors. Researchers at Institute of Science Tokyo have discovered a rare rubidium ...

"Even today, our understanding of star formation is still developing; comprehending how stars formed in the earlier universe is even more challenging." ...

Images from ALMA telescope provide insight to the earlier years of our universe.

The company has massive low-carbon methanol projects in the works in Chile, Uruguay, Brazil, the US, and Tasmania. The cost ...