Journal
ACS CATALYSIS
Volume 12, Issue 20, Pages 12786-12799Publisher
AMER CHEMICAL SOC
DOI: 10.1021/acscatal.2c0329
Keywords
oxygen reduction reaction; iron phthalocyanine; ion adsorption; carbon nanotubes; DFT calculations
Categories
Funding
- ANID/FONDECYT
- ANID Project ACT
- Fenix HPC (UNAB)
- [1170480]
- [1181840]
- [1221798]
- [1220988]
- [3220215]
- [210059]
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It is found that FeN4 macrocycles perform poorly in acidic media. Experimental results show that the absorption of anions from specific acids at the Fe center competes with the coordination of oxygen, preventing the catalytic process and modifying the rate-determining step and final product of the oxygen reduction reaction.
FeN4 macrocycles are among the most promising nonprecious metal catalysts for the oxygen reduction reaction (ORR). Nevertheless, these catalysts perform poorly in acidic media. To understand what impedes the use of these catalysts in acid, graphite electrodes were drop-coated with inks of iron phthalocyanine adsorbed on carbon nanotubes (FePc-CNTs), and the electrocatalytic behavior of the catalyst was studied in four different supporting electrolytes (i.e., HCl, H2SO4, CH3COOH, and NaOH) by means of cyclic voltammetry, polarization curves, and electrochemical impedance spectroscopy. Electrolyte media are theoretically analyzed by ab initio molecular dynamic simulations, with explicit water molecules, to explain and visualize the occurring physical adsorption phenomena. The demetallation of the catalyst could be excluded because more than 3.6 eV would be necessary for this process to occur. In addition, the absorption of the anion of the specific acids at the Fe center was found to compete with the coordination of oxygen and prevent the catalytic process, modifying the ORR rate-determining step and the final product of the reaction. An electrochemical analysis and impedance spectroscopy corroborate this process.
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