Journal article
A MnOx enhanced atomically dispersed iron-nitrogen-carbon catalyst for the oxygen reduction reaction
Journal of materials chemistry. A, Materials for energy and sustainability, Vol.10(11), pp.5981-5989
03/15/2022
Abstract
Cost-effective and highly efficient Fe-N-C single-atom catalysts (SACs) have been considered to be one of the most promising potential Pt substitutes for the cathodic oxygen reduction reaction (ORR) in proton exchange membrane fuel cells (PEMFCs). Nevertheless, they are subject to severe oxidative corrosion originating from the Fenton reaction, leading to poor long-time durability of PEMFCs. Herein, we propose a MnOx engineered Fe-N-C SAC (Mn-Fe-N-C SAC) to reduce and even eliminate the stability issue, as MnOx accelerates the degradation of the H2O2 by-product via a disproportionation reaction to weaken the Fenton reaction. As a result, the Mn-Fe-N-C SAC shows an ultralow H2O2 yield and a negligible half-wave potential shift after 10 000 continuous potential cycles, demonstrating excellent ORR stability. Besides, the Mn-Fe-N-C SAC also shows an improved ORR activity compared to the common Fe-N-C SAC. Results show that the MnOx interacts with the Fe-N-x site, possibly forming Fe-Mn or Fe-O-Mn bonds, and enhances the intrinsic activity of single iron sites. This work provides a method to overcome the stability problem of Fe-N-C SACs while still yielding excellent catalytic activity, thus showing great promise for application in PEMFCs.
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Details
- Title
- A MnOx enhanced atomically dispersed iron-nitrogen-carbon catalyst for the oxygen reduction reaction
- Creators
- Shichao Ding - Washington State UniversityZhaoyuan Lyu - Washington State UniversityErik Sarnello - Northern Illinois UniversityMingjie Xu - University of California, IrvineLingzhe Fang - Northern Illinois UniversityHangyu Tian - Washington State UniversitySam Ellery Karcher - Washington State UniversityTao Li - Northern Illinois UniversityXiaoqing Pan - University of California, IrvineJohn McCloy - Washington State UniversityGuodong Ding - Washington State UniversityQiang Zhang - Washington State UniversityQiurong Shi - Washington State UniversityDan Du - Washington State UniversityJin-Cheng Li - Washington State Univ, Sch Mech & Mat Engn, Pullman, WA 99164 USAXiao Zhang - Washington State UniversityYuehe Lin - Washington State University
- Publication Details
- Journal of materials chemistry. A, Materials for energy and sustainability, Vol.10(11), pp.5981-5989
- Academic Unit
- School of Mechanical and Materials Engineering
- Publisher
- Royal Soc Chemistry
- Number of pages
- 9
- Grant note
- Washington State University DE-AC02-06CH11357 / U.S. Department of Energy, Office of Science, Office of Basic Energy Sciences; United States Department of Energy (DOE)
- Identifiers
- 99901227641501842
- Language
- English
- Resource Type
- Journal article