化学
电解质
阴极
电荷(物理)
动力学
离子
接口(物质)
化学物理
超短脉冲
电荷转移系数
电极
物理化学
电化学
分子
有机化学
循环伏安法
物理
吉布斯等温线
量子力学
激光器
光学
作者
Xue Huang,Haoxiang Sun,Xiangyi Li,Wenhao Zhu,Lei Chen,Tian Ma,Shulin Ding,Tao Ma,Yang Dong,Kai Zhang,Fangyi Cheng,Qiulong Wei,Lijun Gao,Jianqing Zhao,Wei Zhang,Jun Chen
摘要
Sodium-ion batteries suffer from kinetic problems stemming from sluggish ion transport across the electrode-electrolyte interface, causing rapid energy decay during fast-charging or low-temperature operation. One exciting prospect to enhance kinetics is constructing neuron-like electrodes that emulate fast signal transmission in a nervous system. It has been considered that these bioinspired designs enhance electron/ion transport of the electrodes through carbon networks. However, whether they can avoid sluggish charge transfer at the electrode-electrolyte interface remains unknown. By connecting the openings of carbon nanotubes with the surface of carbon-coated Na
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