Metal-organic framework-derived Fe/Fe3C embedded in N-doped carbon as a highly efficient oxygen reduction catalyst for microbial fuel cells
Author:
Publisher
Elsevier BV
Subject
Applied Mathematics,Industrial and Manufacturing Engineering,General Chemical Engineering,General Chemistry
Reference51 articles.
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1. Construction of 1D/2D hierarchical carbon structure encapsulating FeCo alloys by one-step annealing leaf-like ZnFeCo-ZIF for highly-efficient bifunctional oxygen electrocatalysis in reversible Zinc-air battery;Journal of Alloys and Compounds;2024-02
2. Enhancing aerobic oxidation of C–H bonds through efficient catalysis of iron MOF–derived Fe3C nanoparticles embedded in porous carbon catalysts;Applied Surface Science;2024-02
3. Nitrogen-doped carbon/graphitic CQDs composites with 98.8% microporosity as a highly stable electrocatalyst for oxygen reduction;Applied Surface Science;2024-01
4. Outline of microbial fuel cells technology and their significant developments, challenges, and prospects of oxygen reduction electrocatalysts;Frontiers in Chemical Engineering;2023-09-07
5. Nitrogen-Doped Carbon/Graphitic Cqds Composites with 98.8% Microporosity as a Highly Stable Metal-Free Catalyst for Oxygen Reduction;2023
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