Analysis of the limitations in the oxygen reduction activity of transition metal oxide surfaces

Autor: G. T. Kasun Kalhara Gunasooriya, John M. Gregoire, Dan Guevarra, Christina Susan Abraham, Jens K. Nørskov, Sudarshan Vijay, Sara R. Kelly, Yu Wang, Joel A. Haber, Hao Li, Megha Anand, Zhenbin Wang
Jazyk: angličtina
Rok vydání: 2021
Předmět:
Popis: The oxygen reduction reaction (ORR) is the key bottleneck in the performance of fuel cells. So far, the most active and stable electrocatalysts for the reaction are based on Pt group metals. Transition metal oxides (TMOs) constitute an alternative class of materials for achieving operational stability under oxidizing conditions. Unfortunately, TMOs are generally found to be less active than Pt. Here, we identify two reasons why it is difficult to find TMOs with a high ORR activity. The first is that TMO surfaces consistently bind oxygen atoms more weakly than transition metals do. This makes the breaking of the O–O bond rate-determining for the broad range of TMO surfaces investigated here. The second is that electric field effects are stronger at TMO surfaces, which further makes O–O bond breaking difficult. To validate the predictions and ascertain their generalizability for TMOs, we report experimental ORR catalyst screening for 7,798 unique TMO compositions that generally exhibit activity well below that of Pt. Transition metal oxides constitute a promising class of catalysts for the oxygen reduction reaction, but they are found generally to be less active than Pt. Now, computational analyses and high-throughput experiments are used to understand the reasons behind the lower activity, and strategies to improve them are proposed.
Databáze: OpenAIRE