There are many open questions about how our planet formed 4.55 billion years ago: When did plate tectonics start? When did ...

A unified copper-based catalyst platform featuring multivalent r-CuO nanorods for cathodic nitrate reduction (FE NH3% =96.8%) and pristine CuO nanorods for anodic glycerol oxidation (FE Formate% =93%) ...

Iron is essential to biological function, and iron-based nanomaterials may become valuable tools in the long-term effort to ...

Fermentation has evolved into precision fermentation, utilizing biotechnology to engineer microorganisms that produce ...

In a study published in Environmental Science & Technology, a research team led by Prof. JIANG Ling and Prof. LI Gang from the Dalian Institute of Chemical Physics (DICP) of the Chinese Academy of ...

Scientists developed a nanomaterial that generates both hydroxyl radicals and singlet oxygen within tumors, driving potent ...

Discover how just four minutes of supramaximal interval training can trigger powerful cardiovascular, metabolic, and ...

Flying at hypersonic speeds — defined as Mach 5 and above — is likely the toughest environment to engineer materials for. At these speeds, temperatures can reach beyond (1,727° C), straining even the ...

As AI's energy demands surge, Google is backing an unexpected breakthrough that uses rust to reimagine how massive batteries ...

A research team has successfully designed and developed a proprietary non-precious metal oxygen evolution reaction (OER) catalyst featuring a layered structure optimized for anion exchange membrane ...

Processing methods reveal significant differences in nutrient preservation, spreadability, and overall performance — ...

Luks often writes about training and injury on his blog and social media and recently explained the issue after a discussion ...