The challenges of working at the level of a single atom are significant, he admitted, but that is where the CLS comes in. "If ...
However, the exact working mechanism of these catalysts has remained elusive—until now. The study "Unveiling the Adsorbate ...
Single-atom catalysts are at the cutting edge of catalysis research, offering a blend of high efficiency, selectivity, and sustainability. Single-atom catalysts are defined by their structure where ...
They have successfully developed a high-metal-loading single-atom catalyst (SAC) that dramatically enhances the production of reactive oxygen species (ROS) through an unprecedented "density effect ...
Single-atom catalysts (SACs) — which involve isolated, single metal atoms — have emerged as the next generation of catalysts. Compared to nanoparticles or clusters, SACs provide great activity ...
single-atom catalysts (SACs), clusters, and organic molecules. A standout innovation at MOSAIC is the use of Graphene Liquid Cells (GLCs), which allow for the direct observation of chemical ...
A new method has the potential to deliver significant energy savings, according to a study. Chemists have developed an ...
Although it is less abundant than carbon dioxide, methane gas contributes disproportionately to global warming because it ...
A study published in Physical Review Letters by the Interface Science Department at the Fritz Haber Institute has unveiled new insights into the ...
Chemical engineers designed a catalyst that can convert methane into useful polymers, which could help reduce greenhouse gas emissions.
A study has unveiled new insights into the electrocatalytic reduction of CO2 using nickel-based catalysts. The research marks a significant advancement in the quest for sustainable and efficient CO2 ...