Hydrazine Oxidation Reaction: Porous Carbon Membrane‐Supported Atomically Dispersed Pyrrole‐Type Fe?N4 as Active Sites for Electrochemical Hydrazine Oxidation Reaction (Small 31/2020),Small

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Hydrazine Oxidation Reaction: Porous Carbon Membrane‐Supported Atomically Dispersed Pyrrole‐Type Fe?N4 as Active Sites for Electrochemical Hydrazine Oxidation Reaction (Small 31/2020)
Small ( IF 13.0 ) Pub Date : 2020-08-06 , DOI: 10.1002/smll.202070171
Yu‐Cheng Wang ₁ , Li‐Yang Wan ₂ , Pei‐Xin Cui ₃ , Lei Tong ₄ , Yu‐Qi Ke ₁ , Tian Sheng ₅ , Miao Zhang ₁ , Shu‐Hui Sun ₆ , Hai‐Wei Liang ₄ , Yue‐Sheng Wang ₇ , Karim Zaghib ₇ , Hong Wang ₈ , Zhi‐You Zhou ₂ , Jiayin Yuan ₁

Affiliation

In article number 2002203, Tian Sheng, Shu‐Hui Sun, Jiayin Yuan, and co‐workers propose and verify atomically dispersed pyrrole‐type Fe‐N₄ sites supported on hierarchically porous carbon membranes as real active sites for the electrochemical hydrazine oxidation reaction (HzOR), which will open up the future exploration of the metal‐N_x catalysts for HzOR in fuel cells and beyond.

中文翻译：

肼氧化反应：多孔碳膜支撑的原子分散吡咯型Fe ？N4作为电化学肼氧化反应的活性位点（Small 31/2020）

在2002203号文章中，田生，孙树辉，袁佳银及其同事提出并验证了原子分散的吡咯型Fe-N ₄位点支撑在分层多孔碳膜上，作为电化学肼氧化反应的实际活性位点（ HzOR），这将开启对燃料电池及其他领域中的HzOR的金属N _x催化剂的未来探索。

更新日期：2020-08-06

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