Iron-nitrogen-carbon catalysts have the potential to replace the more expensive platinum catalysts currently used in fuel ...

The synchrotron’s high-precision beam allowed them to quantify structural disorder, porosity, pore curvature and the ...

A domestic technology for producing fuel cell catalysts using carbon monoxide has been developed. The Korea Institute of ...

Iron-nitrogen-carbon catalysts have the potential to replace the more expensive platinum catalysts currently used in fuel cells. This is shown by a ...

Scientists have directly measured the minuscule electron sharing that makes precious-metal catalysts so effective. Their new technique, IET, reveals how molecules bind and react on metal surfaces with ...

Due to the intense global impact of fossil fuel overuse on air quality and climate, the search for advanced clean energy ...

Gold is mostly flat despite U.S. dollar’s pullback and falling Treasury yields. Traders take some profits off the table after ...

Supported catalysts are systems in which the active catalytic materials, such as metals, are dispersed on a solid support ...

Addressing the urgent demand for clean energy, Japanese researchers utilized a single-step solution plasma process to ...

Dr. Ali Er, associate professor of physics at Western Kentucky University, has been awarded a Petroleum Research Fund grant ...

Seeking Alpha analyst Harrison Schwartz explains why PPLT stands out as a top long-term pick, citing supply cuts, ...

Because of the iron oxide particles, a nearby magnet can pull the nanoculture bubbles out of the medium they’re in. Scientists can get the bubbles to release their cargo by placing them in pure ...