Researchers at Kyushu University and Institute of Science Tokyo have developed a new computational model that can simulate the transport of oxygen by red blood cells (RBCs) through tiny blood ...

A major discovery is reshaping how scientists think about catalysts. Researchers have, for the first time, captured oxygen ...

Two workers were injured after a magnesium fire triggered an explosion at an Illinois chemical plant, prompting a hazmat ...

A new study reveals an unexpected pathway in catalytic systems, where oxygen does not remain confined to surfaces but can ...

Researchers from North Carolina State University have successfully synthesized bacteriochlorophyll a, which is a ...

Every stroke begins with a sudden interruption of blood flow in the brain. But what happens afterward—why neurons continue to ...

Earth formed within such a precise “Goldilocks zone” for oxygen that a 5% change would have prevented life from emerging.

Researchers directly observed bulk oxygen spillover in catalysts for the first time, revealing that a catalyst's interior can actively contribute to chemical reactions.

As we age, the brain undergoes various changes. Neurons function less efficiently, and key regulatory systems within the ...

A new approach reveals unexpected ways oxygen can bind to rare metals. Iron plays a central role in how the body uses oxygen. In hemoglobin, it binds dioxygen, a pair of oxygen atoms, allowing blood ...

Your red blood cells are tiny couriers, carrying life-sustaining oxygen from your lungs to every cell and bringing back ...