Imagine a world where industrial waste isn't just reduced, it's turned into something useful. This kind of circular economy is already in the works for carbon. Now, researchers in energy, ...

High temperatures and ionizing radiation create extremely corrosive environments inside a nuclear reactor. To design ...

The process of catalysis—in which a material speeds up a chemical reaction—is crucial to the production of many of the chemicals used in our everyday lives. But even though these catalytic processes ...

Carbon-based materials have seen rapid and growing scientific interest in the last decade focused on their use as catalysts for electrochemical applications ...

High temperatures and ionizing radiation create extremely corrosive environments inside a nuclear reactor. To design ...

To meet energy demands and reestablish the nation's energy dominance, U.S. companies are developing several types of advanced ...

Innovations in metal surface engineering are enhancing battery life, efficiency, and safety. Learn how these techniques ...

and establishing Air-Force-level technical guidance for aircraft, ground equipment, and electronics corrosion prevention and control. We provide subject matter expertise in cradle-to-grave corrosion ...

School of Petrochemical Engineering, Changzhou University, Changzhou 213164, P. R. China Key Laboratory of Core Technology of High Specific Energy Battery and Key Materials for Petroleum and Chemical ...

Taking inspiration from industrial forging, researchers have demonstrated a way to squeeze molten metals into atomically-thin layers, creating relatively large flakes of 2D metals. Using a ...

Sheets of metal just two atoms thick can be produced by squashing molten droplets at great pressure between two sapphires. The researchers who developed the process say the unusual materials could ...