Iron and manganese compounds, in addition to sulfate, may play an important role in converting methane to carbon dioxide and eventually carbonates in the Earth's oceans, according researchers looking ...

A new boron-rich compound, manganese diboride, delivers much higher energy density than current solid-rocket materials while remaining stable until intentionally ignited. Its power comes from an ...

(Nanowerk News) Together with a large international research team, Johannes Messinger of Umeå University in Sweden has taken another step toward an understanding of photosynthesis and developing ...

Molecular compounds containing chlorine atoms alongside another element are vital materials in chemical synthesis. Called “binary chlorides,” they can be used to help make other compounds with ...

University at Albany chemists have created a new high-energy compound — manganese diboride — that could revolutionize rocket fuel and make space flights more efficient. ALBANY, N.Y. (Aug. 27, 2025) — ...

A neural network trained on the properties of bulk germanium (a), MnGe (b) and Mn5Ge3 (c) could predict the vibrational properties of more complex structures of germanium-manganese such as (d).

Normally metals and insulators sit at opposite ends of a spectrum of conductivity, but researchers have discovered a material that can switch between those states freely, even at room temperature. The ...

Iron and manganese compounds, in addition to sulfate, may play an important role in converting methane to carbon dioxide and eventually carbonates in the Earth's oceans, according to a team of ...

University at Albany chemists have created a new high-energy compound that could revolutionize rocket fuel and make space flights more efficient. Upon ignition, the compound releases more energy ...