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Cathodes: Bifunctional MOF‐Derived Carbon Photonic Crystal Architectures for Advanced Zn–Air and Li–S Batteries: Highly Exposed Graphitic Nitrogen Matters (Adv. Funct. Mater. 36/2017)
Advanced Functional Materials ( IF 19.0 ) Pub Date : 2017-09-22 , DOI: 10.1002/adfm.201770210 Meijia Yang 1 , Xuanhe Hu 1 , Zhengsong Fang 1 , Lu Sun 1 , Zhongke Yuan 1 , Shuangyin Wang 2 , Wei Hong 1 , Xudong Chen 1 , Dingshan Yu 1
Advanced Functional Materials ( IF 19.0 ) Pub Date : 2017-09-22 , DOI: 10.1002/adfm.201770210 Meijia Yang 1 , Xuanhe Hu 1 , Zhengsong Fang 1 , Lu Sun 1 , Zhongke Yuan 1 , Shuangyin Wang 2 , Wei Hong 1 , Xudong Chen 1 , Dingshan Yu 1
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In article number 1701971, Xudong Chen, Dingshan Yu, and co‐workers develop a metal organic framework derived nitrogen‐rich carbon photonic crystal architecture with record‐high total pore volume, ultra‐large surface area, and hierarchical macro‐meso‐microporosity. Sufficient exposure and accessibility of graphitic nitrogen make a bifunctional cathode material that achieves outstanding capacity, high rate capability and long cycle life for both Zn‐air and Li‐S batteries.
中文翻译:
阴极:用于先进的Zn-空气和Li-S电池的由MOF衍生的双功能碳光子晶体结构:高度暴露的石墨氮物质(Adv。Funct。Mater。36/2017)
在编号1701971中,陈旭东,于鼎山和他的同事开发了一种金属有机骨架衍生的富氮碳光子晶体结构,具有创纪录的高总孔体积,超大表面积和分层的宏观介孔。石墨氮的充分暴露和可及性使这种双功能阴极材料可以为Zn-air和Li-S电池实现出色的容量,高倍率容量和长循环寿命。
更新日期:2017-09-22
中文翻译:
阴极:用于先进的Zn-空气和Li-S电池的由MOF衍生的双功能碳光子晶体结构:高度暴露的石墨氮物质(Adv。Funct。Mater。36/2017)
在编号1701971中,陈旭东,于鼎山和他的同事开发了一种金属有机骨架衍生的富氮碳光子晶体结构,具有创纪录的高总孔体积,超大表面积和分层的宏观介孔。石墨氮的充分暴露和可及性使这种双功能阴极材料可以为Zn-air和Li-S电池实现出色的容量,高倍率容量和长循环寿命。
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