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Lithium‐Ion Batteries: Biomimetic Spider‐Web‐Like Composites for Enhanced Rate Capability and Cycle Life of Lithium Ion Battery Anodes (Adv. Energy Mater. 17/2017)
Advanced Energy Materials ( IF 27.8 ) Pub Date : 2017-09-06 , DOI: 10.1002/aenm.201770092 Pallab Bhattacharya 1 , Manikantan Kota 1 , Dong Hoon Suh 1 , Kwang Chul Roh 2 , Ho Seok Park 1
Advanced Energy Materials ( IF 27.8 ) Pub Date : 2017-09-06 , DOI: 10.1002/aenm.201770092 Pallab Bhattacharya 1 , Manikantan Kota 1 , Dong Hoon Suh 1 , Kwang Chul Roh 2 , Ho Seok Park 1
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The hierarchically porous, sticky spider‐web‐like composite anodes are inspired by the unique structure and work function of a natural spider‐web in a straightforward and artificial manner. In article number 1700331, Ho Seok Park and co‐workers report that the improved rate and cyclic capabilities are associated with the facilitated charge transfer and Li+ ion transport through the 3D internetworked pathways and the tight bonding onto the sticky functionalized surfaces.
中文翻译:
锂离子电池:仿生蜘蛛网状复合材料,可增强锂离子电池阳极的倍率能力和循环寿命(Adv。Energy Mater。17/2017)
分层多孔,粘稠的蜘蛛网状复合阳极的灵感来自天然蜘蛛网的独特结构和功函数,其方式简单明了且人为。Ho Seok Park及其同事在文章编号1700331中报告说,提高的速率和循环能力与通过3D互联途径促进电荷转移和Li +离子迁移以及在粘性功能化表面上的紧密结合有关。
更新日期:2017-09-06
中文翻译:
锂离子电池:仿生蜘蛛网状复合材料,可增强锂离子电池阳极的倍率能力和循环寿命(Adv。Energy Mater。17/2017)
分层多孔,粘稠的蜘蛛网状复合阳极的灵感来自天然蜘蛛网的独特结构和功函数,其方式简单明了且人为。Ho Seok Park及其同事在文章编号1700331中报告说,提高的速率和循环能力与通过3D互联途径促进电荷转移和Li +离子迁移以及在粘性功能化表面上的紧密结合有关。
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