Researchers at the Pacific Northwest National Laboratory (PNNL) discovered a promising approach to make it easier to turn petroleum-based plastic waste into chemicals that can be used to produce new ...

Imagine this solution to global warming: sucking all the anthropogenically created carbon dioxide, that chemical residue from fossil fuels sticking to our skies, and using it to create a fuel source!

Researchers have replaced iridium with ruthenium, a more abundant precious metal, as the positive-electrode catalyst in a reactor that splits water into hydrogen and oxygen. Ruthenium doped with ...

Excessive use of fossil fuels leads to undesired carbon dioxide (CO2) generation, accelerating climate change. One way to tackle this is by converting CO2 into value-added chemicals. On this front, ...

Developing a hydrogen economy is no easy endeavor; however, Rice University engineers have identified a mechanism that could make oxygen evolution catalysis in acids, one of the most difficult ...

For several years now, integrated circuit manufacturers have been investigating alternative barrier layer materials for copper interconnects. As interconnect dimensions shrink, the barrier accounts ...

Scientists in Japan and India have developed a reusable, high-performance catalyst based on flat-shaped ruthenium nanoparticles (Ru-NP) for the production of valuable chemicals. Due to its ...

Researchers at The University of Manchester have developed a new catalyst which has been shown to have a wide variety of uses and the potential to streamline optimization processes in industry and ...

JOHANNESBURG (miningweekly.com) – Ruthenium, one of the six platinum-group metals (PGMs), is once again being given major research attention in view of it being exceptionally suited to uplifting the ...

Cisplatin kills cells by crosslinking their DNA and disrupting replication and transcription. Its crosslinking ability doesn’t discriminate between healthy cells and those within tumors. “Sometimes it ...

On an otherwise ordinary Monday in early October 2017, nuclear monitoring sites across Europe started to detect radioactive ruthenium-106 in the filters that they use to collect air samples.