A highly active, low-cost Co Zn ferrite electrocatalyst in oxygen reduction reactions
Qurat Ul Ain, Fawad Ahmad, Muhammad Irfan, Muhammad Imran Khan, Komal Rao, Naseem Akhter, Abdallah Shanableh, Muhammad Babar Taj, Leonid G. Voskressensky, Rafael Luque
Abstract
Fuel cell technology offers a promising alternative to fossil fuel combustion, providing a clean, eco-friendly and a more efficient energy source. However, the oxygen reduction reaction (ORR) is the most sluggish reaction within fuel cells. A bimetallic iron ferrite material (BMIF) has been developed as a less costly alternative compared to Pt-based electrodes with high electrochemical activity. The particle size of BMIF ranges from 0.08 to 0.3 μm, and its spinel structure has been confirmed through FTIR and XRD analysis. TGA shows high thermal stability of catalyst. Spinel structure remained unchanged even after electrochemical analysis as confirmed by FTIR. With increasing electrolyte concentration, the cathodic peak current decreases in accordance with De-Bye Huckle Limiting law. Onset potential for BMIF is 0.0296 V vs. RHE, significantly lower than that of Pt, which is 0.783 V vs. RHE. Additionally, the mass activity of BMIF at −0.998 V is 253 mA mg −1 , surpassing that of Pt/C (96.9 mA mg −1 Chronoamperometry result shows appreciable durability of BMIF as initially for only 1 min current density was declined and then no further decline was observed till 1000s. • Design of a bimetallic iron ferrite as alternative to Pt-based electrodes for ORR systems. • Spinel structure and narrow particle size (0.08–0.3 μm) for BMIF. • Onset potential 0.0296 V vs. RHE, significantly lower to that of Pt (0.783 V vs. RHE). • Mass activity (177 mA mg −1 ) at −0.998 V is, surpassing that of Pt/C (96.9 mA mg −1 ).