NaTiOx‐modified high‐nickel layered oxide cathode for stable sodium‐ion batteries

NaTiOx‐modified high‐nickel layered oxide cathode for stable sodium‐ion batteries

Abstract The O3‐type layered cathode with high Ni content has attracted much attention because of its high capacity and simple synthesis process. However, surface side reaction and O3–P3 phase transitions would occur during Na+ insertion/extraction, resulting in unsatisfying electrochemical performa...

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Bibliographic Details
Main Authors: Yingcong Liu, Xing Zhou, Dongwei He, Xiaowei Liu, Chao Yang, Dawei Xu, Meilong Wang, Ruitao Sun, Bin Zhang, Jingjing Xie, Jin Han, Wen Chen, Ya You
Format: Article
Language:English
Published: Wiley 2025-01-01
Series:Carbon Energy
Subjects:
cathode
high‐nickel layered oxides
sodium‐ion battery
surface modification
Online Access:https://doi.org/10.1002/cey2.627
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Summary:Abstract The O3‐type layered cathode with high Ni content has attracted much attention because of its high capacity and simple synthesis process. However, surface side reaction and O3–P3 phase transitions would occur during Na+ insertion/extraction, resulting in unsatisfying electrochemical performance. Herein, O3‐Na[Ni0.6Co0.2Mn0.2]O2 (NNCM622) cathode is modified by a NaTiOx coating layer in a wet chemistry method, which reduces the parasitic reaction and facilitates Na+ migration. Simultaneously, the partially doped Ti improves structural stability by restraining the irreversible multiple‐phase transition. As a result, the modified NNCM622 cathode obtains a high specific capacity of 143.4 mAh g−1 and an improved capacity retention of 69% after 300 cycles. Our work offers new prospects for stabilizing the NNCM622 cathode with a feasible coating strategy.
ISSN:2637-9368

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