有机物衍生的锂硫电池正极材料研究进展
Recent progress in organics derived cathode materials for lithium sulfur batteries
有机物衍生的锂硫电池正极材料研究进展 |
| 陆贇, 梁嘉宁, 朱用, 李峥嵘, 胡冶州, 陈科, 王得丽 |
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Recent progress in organics derived cathode materials for lithium sulfur batteries |
| Yun LU, Jianing LIANG, Yong ZHU, Zhengrong LI, Yezhou HU, Ke CHEN, Deli WANG |
| 图3 S@PAN储锂机理的认知过程:(a) Wang等于2013年对S@PAN在锂化/去锂化反应过程的模拟;(b) 2018年,Yang等利用SS-NMR和异位X光电子能谱探究S元素在不同电位下存在在形式的变化,进而确定S@PAN储能机理;(c) Ming等于2018年通过将7Li固态核磁共振和量子化学模拟相结合,进而确定S@PAN储能机理 |
| Fig.3 The cognitive process of S@PAN reaction mechanism: (a) the possible reaction mechanism of S@PAN according to Wang et al. in 2013; (b) the reaction mechanism of S@PAN based on SS-NMR and ex-situ XPS by Yang et al. in 2018; (c) the integration of 7Li solid state nuclear magnetic resonance as well as quantum chemistry simulation by Ming et al. in 2018 |
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