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Lithium Polymer Batteries: Porous SnO2/C Nanofiber Anodes and LiFePO4/C Nanofiber Cathodes with a Wrinkle Structure for Stretchable Lithium Polymer Batteries with High Electrochemical Performance (Adv. Sci. 17/2020)
Advanced Science ( IF 14.3 ) Pub Date : 2020-09-09 , DOI: 10.1002/advs.202070093 O. Hyeon Kwon , Jang Hyeok Oh , Bobae Gu , Min Su Jo , Se Hwan Oh , Yun Chan Kang , Jae‐Kwang Kim , Sang Mun Jeong , Jung Sang Cho
Advanced Science ( IF 14.3 ) Pub Date : 2020-09-09 , DOI: 10.1002/advs.202070093 O. Hyeon Kwon , Jang Hyeok Oh , Bobae Gu , Min Su Jo , Se Hwan Oh , Yun Chan Kang , Jae‐Kwang Kim , Sang Mun Jeong , Jung Sang Cho
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In article number 2001358, Jae‐Kwang Kim, Sang Mun Jeong, Jung Sang Cho, and co‐workers successfully demonstrate an approach for high‐performance stretchable batteries via 1D nanofiber active materials, stretchable gel polymer electrolyte, and wrinkle structure electrode. The stretchable full‐cell battery in this study shows the highest energy densities as compared to the other stretchable batteries reported previously.
中文翻译:
锂聚合物电池:具有皱纹结构的多孔SnO2 / C纳米纤维阳极和具有皱纹结构的LiFePO4 / C纳米纤维阴极,用于具有高电化学性能的可拉伸锂聚合物电池(Adv。Sci。17/2020)
在Jae-Kwang Kim,Sang Mun Jeong,Jung Sang Cho及其同事的文章编号2001358中,成功演示了一种通过一维纳米纤维活性材料,可拉伸凝胶聚合物电解质和皱纹结构电极生产高性能可拉伸电池的方法。与之前报道的其他可拉伸电池相比,本研究中的可拉伸全电池具有最高的能量密度。
更新日期:2020-09-10
中文翻译:
锂聚合物电池:具有皱纹结构的多孔SnO2 / C纳米纤维阳极和具有皱纹结构的LiFePO4 / C纳米纤维阴极,用于具有高电化学性能的可拉伸锂聚合物电池(Adv。Sci。17/2020)
在Jae-Kwang Kim,Sang Mun Jeong,Jung Sang Cho及其同事的文章编号2001358中,成功演示了一种通过一维纳米纤维活性材料,可拉伸凝胶聚合物电解质和皱纹结构电极生产高性能可拉伸电池的方法。与之前报道的其他可拉伸电池相比,本研究中的可拉伸全电池具有最高的能量密度。
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