Researchers at the University of Minnesota Twin Cities have discovered a new method by which a catalyst can be used to ...

This innovative bismuth oxide catalyst allows for the selective combustion of acetylene, potentially transforming industrial ...

Researchers have discovered how a catalyst can be used to selectively burn one molecule in a mixture of hydrocarbons, which ...

Unlike most metal catalysts, which primarily produce single-carbon molecules from CO 2, the copper nanoflowers facilitate the formation of more complex hydrocarbons containing two carbon atoms, such ...

Unlike most metal catalysts, which can only convert CO 2 into single-carbon molecules, the copper flowers enable the formation of more complex hydrocarbons with two carbon atoms, such as ethane and ...

A system inspired by photosynthesis is to be used to produce synthetic fuels. It also provides valuable by-products.

Unlike most metal catalysts, which can only convert CO₂ into single-carbon molecules, the copper flowers enable the formation of more complex hydrocarbons with two carbon atoms, such as ethane ...

Volatile organic compounds (VOCs) are known to be contaminants originating in industrial processes and materials, as well as a reason for substandard indoor air, but they are also formed in nature ...

Unlike most metal catalysts, which can only convert CO2 into single-carbon molecules, the copper flowers enable the formation of more complex hydrocarbons with two carbon atoms, such as ethane and ...

Unlike most metal catalysts, which can only transform CO₂ into single-carbon molecules, the copper flowers facilitate the production of more complex hydrocarbons with two carbon atoms, such as ethane ...

MINNEAPOLIS / ST. PAUL (02/18/2024) — For the first time, researchers at the University of Minnesota Twin Cities discovered a new method by which a catalyst can be used to selectively burn one ...