Integration of Platinum Group Metal‐Free Catalysts and Bilirubin Oxidase into a Hybrid Material for Oxygen Reduction: Interplay of Chemistry and Morphology

Catalytic activity toward the oxygen reduction reaction (ORR) of platinum group metal‐free (PGM‐free) electrocatalysts integrated with an enzyme (bilirubin oxidase, BOx) in neutral media was studied. The effects of chemical and morphological characteristics of PGM‐free materials on the enzyme enhancement of the overall ORR kinetics was investigated. The surface chemistry of the PGM‐free catalyst was studied using X‐ray Photoelectron Spectroscopy. Catalyst surface morphology was characterized using two independent methods: length‐scale specific image analysis and nitrogen adsorption. Good agreement of macroscopic and microscopic morphological properties was found. Enhancement of ORR activity by the enzyme is influenced by chemistry and surface morphology of the catalyst itself. Catalysts with a higher nitrogen content, specifically pyridinic moieties, showed the greatest enhancement. Furthermore, catalysts with a higher fraction of surface roughness in the range of 3–5 nm exhibited greater performance enhancement than catalysts lacking features of this size. Outside the BOx: The enhancement of the electrochemical activity toward oxygen reduction reaction with the addition of an enzyme (bilirubin oxidase, BOx) to a platinum group metal‐free (PGM‐free) catalyst is shown. The influence of chemistry and morphology of the PGM‐free materials is found to have an impact in the level of enhancement of the hybrid catalyst.