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- Title
Modulating Crystal and Interfacial Properties by W‐Gradient Doping for Highly Stable and Long Life Li‐Rich Layered Cathodes.
- Authors
Meng, Junxia; Xu, Lishuang; Ma, Quanxin; Yang, Mengqian; Fang, Yuzhong; Wan, Guangying; Li, Ruhong; Yuan, Jujun; Zhang, Xianke; Yu, Huajun; Liu, Lingli; Liu, Tiefeng
- Abstract
Stabilizing Li‐rich layered oxides without capacity/voltage fade upon cycling is a prerequisite for a successful commercialization. Although the inhibition of structural and interfacial changes is identified as an effective strategy, the battery community always seeks for a technologically flexible method to make it really competitive among the cathode. Herein, the gradient W‐doping within Li1.2Mn0.56Ni0.16Co0.08O2 (LLMO) is proposed to relieve crystal disintegration and simultaneously enhance interfacial stability because of the formation of Li2WO4 coating layer on the material surface. This is mainly attributed to the scenario that partial Mn replacement by W can stabilize the LLMO structure and regulate the electrochemical activity of Mn element. The W‐doped LLMO (W@LLMO) possesses improved specific capacity and voltage stability (83.2% capacity retention and voltage retention of 94.9% after 200 cycles at 0.5 C). Besides, a practical pouch cell based on the W@LLMO cathode presents sufficient gravimetric energy density (318 Wh kg−1) and cycling stability (capacity retention of 87.7% after 500 cycles at 1.0 C). This study presents an effective method to design robust Li‐rich layered cathodes for next‐generation Li‐ion batteries.
- Subjects
LONGEVITY; ENERGY density; CATHODES; LITHIUM-ion batteries; CRYSTALS; SURFACES (Technology); CYCLING competitions
- Publication
Advanced Functional Materials, 2022, Vol 32, Issue 19, p1
- ISSN
1616-301X
- Publication type
Article
- DOI
10.1002/adfm.202113013