Composite Cathode of NCM Particles and Li3PS4-LiI Electrolytes Prepared using the SEED Method for All-Solid-State Lithium Batteries

机译：使用种子方法为全固态锂电池制备的NCM颗粒和Li3PS4-Lii电解质的复合阴极

获取原文

页面导航

摘要
著录项
相似文献
相关主题

摘要

Li7P2S8I (LPSI) electrolytes were directly produced on a cathode active material LiNi_(1/3)Mn_(1/3)Co_(1/3)O2 (NMC) using the new liquid process which is named 'SEED method'. The formation of electrolytes on NMC was confirmed using scanning electron microscopy and energy dispersive X-ray mapping. The ionic conductivities of the LPSI electrolyte prepared by the SEED method were evaluated and the LPSI electrolyte showed 2.5x 10 ~(-4)Scm~(-1)at room temperature which is almost equal to that of the LPSI electrolyte prepared by the previous liquid-phase shaking process. All-solid-state cells composed of [90MNO10LPSI composite | Li3PS41 In-Li] were fabricated and the electrochemical properties of the cells were evaluated. The cell fabricated using this composite as cathode material exhibited enhanced performance in comparison with the cell using the cathode material prepared by hand mixing LPSI with NMC.

机译：使用新的液体过程将Li7P2S8i（LPSI）电解质直接在阴极活性物质LINI_（1/3）MN_（1/3）CO_（1/3）O2（NMC）上产生。使用扫描电子显微镜和能量分散X射线测绘确认NMC上的电解质形成。通过种子方法制备的LPSI电解质的离子电导率进行评价，并且在室温下显示LPSI电解质2.5×10〜（-4）SCM〜（-1），其几乎等于通过前一个制备的LPSI电解质的LPSI电解质液相摇动过程。全固态电池由[90MNO10LPSI复合材料|制造Li3PS41 in-Li]，评价细胞的电化学性质。使用该复合材料作为阴极材料制造的电池表现出与使用用手工混合LPSI与NMC制备的阴极材料相比的增强性能。

著录项

来源
《International Conference on Advanced Manufacturing and Industry Applications》|2019年|683 p.|共5页
会议地点
作者
R Matsuda; E Hirabara; N H H Phuc;
展开▼
作者单位

展开▼
会议组织
原文格式 PDF
正文语种
中图分类工程材料学;
关键词

相似文献

外文文献
中文文献
专利

1. A novel dense LiCoO2 microcrystalline buffer layer on a cathode-electrolyte interface for all-solid-state lithium batteries prepared by the magnetron sputtering method [J] . Bai Lixiong, Xue Wendong, Qin Haixia, Electrochimica Acta . 2019,第期

机译：通过磁控溅射法制备的全固态锂电池的阴极电解质界面上的一种新型致密LiCoO2微晶缓冲层
2. Effect of mixing method on the properties of composite cathodes for all-solid-state lithium batteries using Li_2S-P_2S_5 solid electrolytes [J] . Junghoon Kim, Minyong Eom, Sungwoo Noh, Journal of power sources . 2013,第deca15期

机译：混合方法对使用Li_2S-P_2S_5固体电解质的全固态锂电池复合正极性能的影响
3. Toward High Performance All-Solid-State Lithium Batteries with High-Voltage Cathode Materials: Design Strategies for Solid Electrolytes, Cathode Interfaces, and Composite Electrodes [J] . Li Liansheng, Duan Huanhuan, Li Jia, Advanced energy materials . 2021,第28期

机译：具有高压阴极材料的高性能全固态锂电池：固体电解质，阴极接口和复合电极的设计策略
4. Composite Cathode of NCM Particles and Li3PS4-LiI Electrolytes Prepared using the SEED Method for All-Solid-State Lithium Batteries [C] . R Matsuda, E Hirabara, N H H Phuc International Conference on Advanced Manufacturing and Industry Applications . 2019

机译：使用种子方法为全固态锂电池制备的NCM颗粒和Li3PS4-Lii电解质的复合阴极
5. Lithium manganate-based cathode materials for lithium ion batteries prepared by the Pechini process. [D] . Liu, Wen. 1997

机译：通过Pechini工艺制备的锂离子电池用锰酸锂基正极材料。
6. A polycarboxylic/ether composite polymer electrolyte via in situ UV-curing for all-solid-state lithium battery [O] . Wenli Wang, Ziwen Qiu, Qian Wang, 2020

机译：全固态锂电池原位UV固化的多羧基/醚复合聚合物电解质
7. Preparation of LiNi_1/3Mn_1/3Co_1/3O₂/Li₃PS₄ cathode composite particles using a new liquid-phase process and application to all-solid-state lithium batteries [O] . Reiko MATSUDA, Eito HIRAHARA, Nguyen Huu Huy PHUC, 2018

机译：LINI _{1/3 Mn _{1/3 co <sub> 1/3 O _{2 / li _{3 ps _{4 阴极复合颗粒使用新的液相过程和应用于全固态锂电池}}}}}

Composite Cathode of NCM Particles and Li3PS4-LiI Electrolytes Prepared using the SEED Method for All-Solid-State Lithium Batteries

摘要

著录项

相似文献

相关主题

期刊订阅