Explores electrocatalysis for renewable energy storage, focusing on hydrogen and CO2 reactions, catalyst challenges, MoS2 potential, and computational design.
Explores critical analysis of scientific papers and the design of MoS2 catalysts for hydrogen evolution reactions, emphasizing nanostructuring and catalyst characterization.
Explores the design and advantages of molecular catalysts, focusing on their applications for hydrogen evolution reactions and the concept of overpotential.
Explores transition metal oxides as OER catalysts, focusing on active sites in Fe-free and Fe-doped Ni oxides, revealing insights into the OER mechanism.
Explores transition metal oxides in the oxygen evolution reaction and the challenges in proving the active element, along with benchmarking electrocatalysts for oxygen evolution.
Explores the proposed mechanism of CO2 reduction by FeNi-CODH and the selective 2-electron CO2 reduction to CO, highlighting the role of hydrogen bonding.
