Litcius/Paper detail

Modulating the electrocatalytic activity of N-doped carbon frameworks via coupling with dual metals for Zn–air batteries

Jung Hyun Park, Jae‐Hoon Shin, Jong‐Min Ju, Junhyeong Lee, Chanhee Choi, Yoonhee So, Hyunji Lee, Jong‐Ho Kim

2022Nano Convergence24 citationsDOIOpen Access PDF

Abstract

N-Doped carbon electrocatalysts are a promising alternative to precious metal catalysts to promote oxygen reduction reaction (ORR). However, it remains a challenge to design the desired active sites on carbon skeletons in a controllable manner for ORR. Herein, we developed a facile approach based on oxygen-mediated solvothermal radical reaction (OSRR) for preparation of N-doped carbon electrocatalysts with a pre-designed active site and modulated catalytic activity for ORR. In the OSRR, 2-methylimidazole reacted with Co and Mn salts to form an active site precursor (MnCo-MIm) in N-methyl-2-pyrrolidone (NMP) at room temperature. Then, the reaction temperature increased to 140 °C under an oxygen atmosphere to generate NMP radicals, followed by their polymerization with the pre-formed MnCo-MIm to produce Mn-coupled Co nanoparticle-embedded N-doped carbon framework (MnCo-NCF). The MnCo-NCF showed uniform dispersion of nitrogen atoms and Mn-doped Co nanoparticles on the carbon skeleton with micropores and mesopores. The MnCo-NCF exhibited higher electrocatalytic activity for ORR than did a Co nanoparticle only-incorporated carbon framework due to the improved charge transfer from the Mn-doped Co nanoparticles to the carbon skeleton. In addition, the Zn-air battery assembled with MnCo-NCF had superior performance and durability to the battery using commercial Pt/C. This facile approach can be extended for designing carbon electrocatalysts with desired active sites to promote specific reactions.

Topics & Concepts

Dual (grammatical number)Coupling (piping)DopingCarbon fibersMaterials scienceDual roleNanotechnologyChemistryCombinatorial chemistryOptoelectronicsMetallurgyComposite materialComposite numberArtLiteratureAdvanced battery technologies researchElectrocatalysts for Energy ConversionAdvanced Battery Materials and Technologies