The Te modulator induces a polarized charge distribution to optimize the electronic structure of the central Fe site, elevating the d-band center and enhancing the density of states near the Fermi ...

Fe-N 4 is a typical active site in Fe-N/C catalysts with maximum atomic utilization and a well-defined structure. However, its high symmetry limits further electronic structure optimization and ...

Scientists from the University of Science and Technology of China have created a novel “Janus” dual-atom catalyst (FeCo-N 3 O 3 @C), with Fe and Co atoms coordinated synergistically through an N-O ...

A recent article in Nature Nanotechnology introduced a novel approach to enhance iridium catalyst performance by coordinating iridium single atoms (Ir 1) with cobalt–iron hydroxides (Co,Fe)-OH and ...

A team in Milan has developed a first-of-its-kind single-atom catalyst that acts like a molecular switch, enabling cleaner, more adaptable chemical reactions. Stable, recyclable, and eco-friendly, it ...

A collaborative effort between researchers at the Stanford Synchrotron Radiation Lightsource (SSRL) and the University of California, Davis has resulted in the development of a novel methodology for ...