By maximizing the catalyst's surface area, this method ensures the most efficient use of rare elements like ruthenium (Ru). Dr. Yifan Chen, a Research Fellow at the University of Nottingham's ...

Heterogeneous catalysts enhance reaction rates and selectivity, especially metal nanoclusters like Ru ... of use of this website. Chen, Y., & et al. Evolution of amorphous ruthenium nanoclusters ...

The study introduces an innovative electronic fine-tuning (EFT) approach to enhance the interactions between zinc (Zn) and ruthenium (Ru) species, resulting in a highly active and stable catalyst ...

Some of the changes that extend copper damascene interconnects use lower-resistance via processes, thinner TaN diffusion barriers by atomic layer deposition (rather than PVD), alternative liners such ...

For example, the production of polyethylene, a common plastic used in various everyday items such as bottles and containers or found in cars to convert harmful gases from the engine's exhaust into ...

The study introduces an innovative electronic fine-tuning (EFT) approach to enhance the interactions between zinc (Zn) and ruthenium (Ru) species, resulting in a highly active and stable catalyst for ...

In a breakthrough for hydrogen technology, researchers have introduced an innovative electronic fine-tuning approach that enhances the interaction between zinc and ruthenium. As the world moves ...