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Achieving Superior Cyclability Pouch Cells with Oxygen Vacancy-Moderated P′2/P3 Hybrid Layered Sodium Cathode Materials

Chenxiang LiGRINM (Guangdong) Research Institute for Advanced Materials and Technology, Foshan, Guangdong 528051, P. R. ChinaMeng LiGRINM (Guangdong) Research Institute for Advanced Materials and Technology, Foshan, Guangdong 528051, P. R. ChinaGuozhuang LiuHaoxiang ZhuoChina Automotive Battery Research Institute Co., Ltd., Beijing 100088, P. R. ChinaQian LiNational Institute of Clean and Low Carbon Energy, Changping, Beijing 102211, P. R. ChinaHui ZhangNational Key Laboratory of Materials for Integrated Circuits, Shanghai Institute of Microsystem and Information Technology, Chinese Academy of Sciences, Shanghai 200050, P. R. ChinaGuoyao PangGRINM (Guangdong) Research Institute for Advanced Materials and Technology, Foshan, Guangdong 528051, P. R. ChinaXuan YangGRINM (Guangdong) Research Institute for Advanced Materials and Technology, Foshan, Guangdong 528051, P. R. ChinaZhou LiaoGRINM (Guangdong) Research Institute for Advanced Materials and Technology, Foshan, Guangdong 528051, P. R. ChinaKuan WangGRINM (Guangdong) Research Institute for Advanced Materials and Technology, Foshan, Guangdong 528051, P. R. ChinaDongniu WangBiwei XiaoGRINM (Guangdong) Research Institute for Advanced Materials and Technology, Foshan, Guangdong 528051, P. R. ChinaDongsheng GengNanjing University of Information Science & Technology, Nanjing, Jiangsu 210044, P. R. China
2024en
ABI

Аннотация

Layered P2-type sodium manganese oxide has emerged as a promising cathode candidate for sodium-ion batteries due to its appealing cost-effectiveness and high discharge voltage. However, its practical capacity within the voltage range of 2.0–4.0 V (vs Na+/Na) is relatively low, and its rate capability is hampered by the adverse charge/vacancy ordering during charge/discharge. In this study, a layered P′2/P3 mixed-phase Na0.8-aMn0.675Ni0.225Li0.1O2–x cathode with high (003) crystal plane intensity was designed by introducing oxygen vacancies to P2-structured materials. Aided by these advantages, the hybrid cathode material demonstrates impressive structural and thermal stability and faster Na-ion diffusion kinetics compared to a regular P2 material. Half-cell shows an initial discharge capacity retention of 101 mA h/g at 12 mA/g and 92.25% retention after 500 cycles at 120 mA/g. In combination with a hard carbon anode, the 0.5 A h pouch cell achieved a prevailing capacity retention of 95.2% after 2600 cycles at 36 mA/g. This work opens new dimensions for layered cathode materials with the aim of achieving superior cyclabilities.

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