Water Electrolysis: A Stable Graphitic, Nanocarbon‐Encapsulated, Cobalt‐Rich Core–Shell Electrocatalyst as an Oxygen Electrode in a Water Electrolyzer (Adv. Energy Mater. 14/2018),Advanced Energy Materials

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Water Electrolysis: A Stable Graphitic, Nanocarbon‐Encapsulated, Cobalt‐Rich Core–Shell Electrocatalyst as an Oxygen Electrode in a Water Electrolyzer (Adv. Energy Mater. 14/2018)
Advanced Energy Materials ( IF 24.4 ) Pub Date : 2018-05-15 , DOI: 10.1002/aenm.201870065
Arumugam Sivanantham ₁ , Pandian Ganesan ₁ , Luis Estevez ₂ , B. Peter McGrail ₂ , Radha Kishan Motkuri ₂ , Sangaraju Shanmugam ₁

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In article 1702838 by Sangaraju Shanmugam and co‐workers, a Prussian blue analogue‐derived metalrich, thin graphitic nitrogen doped‐carbon (NC) layer, core‐shell Co@NC catalyst overcomes the sluggish OER kinetics of overall alkaline water splitting. The continuous operation of water splitting over several hundred hours using Co@NC is demonstrated, which is an apt and alternative anode catalyst to replace the precious‐metal OER anode in large‐scale H₂ generation.

中文翻译：

水电解：在水电解槽中用作氧电极的稳定石墨烯，纳米碳包裹，富钴核壳电催化剂（Adv。Energy Mater。14/2018）

Sangaraju Shanmugam及其同事的文章1702838中介绍了一种普鲁士蓝类似物衍生的金属丰富的，薄的石墨氮掺杂碳（NC）层，核壳型Co @ NC催化剂克服了整体碱水分解的缓慢OER动力学。演示了使用Co @ NC连续数百小时进行水分解的操作，这是一种适合且替代的阳极催化剂，可代替大规模H ₂生成中的贵金属OER阳极。

更新日期：2018-05-15

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