Effect of Experimental Operations on the Limiting Current Density of Oxygen Reduction Reaction Evaluated by Rotating‐Disk Electrode
Guoyu Zhong, Shurui Xu, Lei Liu, Cheng Zhi Zheng, Jingjing Dou, Fengye Wang, Xiaobo Fu, Wenbo Liao, Hongjuan Wang
Abstract
Abstract The universal linear scan voltammogram measurement on the rotating disk electrode (RDE) has been identified as a simple method to investigate the oxygen reduction activity of electrocatalysts. The steady‐state limiting current density I lim indicates the maximum diffusion current density in the oxygen reduction reaction (ORR) during RDE measurement, which should be a fixed value in theory for a 4e ORR in a particular concentration solution and at a certain rotate speed. However, in experiments, I lim is always variable and smaller than theoretical value even though with the same the catalyst, electrode, and rotator. So the impact of various experimental operating parameters on I lim is highly necessary to be investigated. In this paper, factors, such as catalyst loading, O 2 inlet condition, O 2 flow rate, gas tightness, solution concentration, and purity, have been investigated for their effects on the I lim of ORR on three typical catalysts (20 % commercial Pt/C, Iron/Nitrogen/Carbon‐catalyst and N‐doped carbon nanotubes). The results indicate that the catalyst loading and O 2 inlet condition are the key factors influencing the I lim of ORR. While, the O 2 flow rate, gas tightness, solution concentration, and purity have little influence on the I lim of ORR. The correct I lim could be obtained under the optimized catalyst loading and the O 2 inlet with an extended sand core tube.