We have worked on the development of new synthetic methods for OER catalysts, the design and development of new catalysts, the characterization of catalysts at a molecular level including the development of new tools, and the integration of catalysts into light-harvesting devices. We have obtained significant results:
1. Several novel synthetic methods for OER catalysts have been developed.
2. We developed a highly active and unconventional NiFe catalyst.
3. An efficient photo device incorporating an OER catalyst has been constructed.
4. We completed a study of the stability of OER catalysts.
5. We developed the first atomically dispersed "double-atom" OER catalysts.
6. Using operando spectroscopic tools and isotope exchange experiments, we revealed the origin of the high activity of NiFe OER catalysts.
7. We revealed the mechanism of OER for representative catalysts.
8. We obtained the first experimental evidences for a novel type of mechanism in OER, which can be used to design next generation catalysts.
9. We demonstrated the highest efficiency alkaline water electrolysis using our catalysts.
Our work has resulted in 21 scientific publications. We have disseminated our results in scientific conferences, workshops, press releases, and social media. More than 13'000 people are exposed to our work.