There is a high level of interest, even excitement, among chemists and materials scientists about the potential of single-atom catalysts (SACs) but their development relies on very specialized tools available only at synchrotrons like the Canadian Light Source (CLS) at the University of Saskatchewan (USask).
“This is a really exciting research area,” said Dr. Peng Zhang, professor of chemistry and of biomedical engineering at Dalhousie University, and a long-time CLS user.
Catalysts are nanoparticles coated with materials – often expensive metals like platinum, palladium and gold – that speed up chemical reactions. A significant drawback for conventional catalysts is that only a small percentage of the catalytic material is used in the chemical reaction, making them inefficient and wasteful, explained Zhang.
With growing demand for clean and sustainable energy, using SACs in energy systems can help the environment and save money. SACs have benefits like making reactions more efficient, using less rare metals, and improving the performance of devices like fuel cells and batteries. They can also help store renewable energy from sources like the sun and wind, making it more reliable.
In the case of automotive catalytic converters, which are designed to convert exhaust emissions into less toxic pollutants, Zhang said less than half of the platinum atoms in the catalyst are available for the necessary chemical reaction.
The goal of SAC research is to control the surface atomic structure of catalysts with individual atoms of the catalytic material in a matrix of less-expensive material, ensuring all of the material is available for the reaction. “When you design the catalyst to have a single-atom structure, you can significantly improve their activity and performance in the catalytic application,” said Zhang.
The challenges of working at the level of a single atom are significant, he admitted, but that is where the CLS comes in.
“If you think about single-atom catalysts, they’re so small that you need a special research tool to uncover their structure,” to understand how the atoms are arranged and what atoms are present. “Even with the most powerful electron microscope, you can probably see an individual atom, but if you’re using synchrotron technology, you can get a resolution 100 times smaller.”
Read more on CLS website