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Please wait a minute... For Selected: Download Citations EndNote Ris BibTeX Toggle Thumbnails Select Oxygen Reduction Reactions of Fe-N-C Catalysts: Current Status and the Way Forward Hangjia Shen, Tiju Thomas, Sefu Abolaji Rasaki, Ali Saad, Chun Hu, Jiacheng Wang, Minghui Yang Electrochemical Energy Reviews    2019, 2 (2): 252-276.   DOI: 10.1007/s41918-019-00030-w Abstract （1076）      PDF       Knowledge map    Save Currently, Fe-N-C materials are considered to be among the most important oxygen reduction reaction (ORR) catalysts, because they are potential substitutes for Pt-based catalysts and are therefore promising in the development of non-noble metal-based catalysts. However, challenges such as electron transfer kinetics still exist and need to be improved upon. From a chemical stand point, improvements can be made through the better understanding of mechanisms in Fe-N-C-based ORR catalysis along with a deeper understanding of the chemical origin of active sites on Fe-N-C catalyst surfaces. Based on these, this comprehensive review will focus on the energy conversion, transformation kinetics and electron transfer of the ORR process as catalyzed by Fe-N-C catalysts. And by taking these and other relevant analytical results for Fe-N-C materials into consideration, primary strategies in the improvement in Fe-N-C catalyst activity will be presented. Full-text：https://link.springer.com/article/10.1007/s41918-019-00030-w/fulltext.html Related Articles | Metrics | Comments（0） Select Pathways of the Electrochemical Nitrogen Reduction Reaction: From Ammonia Synthesis to Metal-N2 Batteries Sebastian Cyril Jesudass, Subramani Surendran, Joon Young Kim, Tae-Yong An, Gnanaprakasam Janani, Tae-Hoon Kim, Jung Kyu Kim, Uk Sim Electrochemical Energy Reviews    2023, 6 (3): 27-.   DOI: 10.1007/s41918-023-00186-6 Abstract （269）      PDF       Knowledge map    Save Ammonia is considered as an alternative fuel resource for a sustainable green future. The production of ammonia involves the electrochemical nitrogen reduction reaction (NRR), which has gained considerable attention due to its eco-friendly resources and nonharmful byproducts. Even with the manifold works on NRR, the technique has not reached the industrial scale because of the impediments of NRR electrocatalysts, and in addition, state-of-the-art electrocatalysts have not yet been discovered. In this review, first, the mechanism of the NRR, key metrics, and operational procedures for NRR electrochemistry are presented. Then, the electrocatalyst designs for efficient NRR are briefly introduced, followed by a discussion on the influence of the electrolytes that enhance NRR performance. The counterion effects of electrolytes on NRR performance and strategies for suppressing the HER by electrolyte additives are also discussed. Later, the NRR mechanisms are upgraded, and a comprehensive review of metal-N2 batteries is provided. This review summarizes the effective methods for performing the NRR and strategies to suppress the HER on various electrocatalysts by tuning electrolytes and their additives. The review concludes by discussing the prospects of metal-N2 batteries. Related Articles | Metrics | Comments（0）