期刊
JOURNAL OF MATERIALS CHEMISTRY A
卷 9, 期 12, 页码 7838-7847出版社
ROYAL SOC CHEMISTRY
DOI: 10.1039/d0ta11954g
关键词
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资金
- National Key R&D Program of China [2017YFE0198100]
- National Natural Science Foundation of China [21975250]
- Open Project Program of Key Laboratory of Preparation and Application of Environmental Friendly Materials (Jilin Normal University), Ministry of Education, China [2020005]
- Science and Technology Development Program of Jilin Province [YDZJ202101ZYTS185]
By utilizing a sulfur-mediated strategy, a high-rate charging and discharging lithium-ion battery anode has been successfully developed, exhibiting high initial coulombic efficiency and fast-charging lithium storage capacity.
A rate-limited formation of low-stage intercalation and lithium precipitation at high C-rate severely limits the application of graphite anodes for fast-charging lithium ion batteries (LIBs). The exploration of a new-type of fast-charging anode is promising and urgent. Herein, a high-rate Sb2S3-based micro-package anode composed of Sb2S3 particles encapsulated into S-doped expanded graphite (Sb2S3@EG ' -S) is developed by a scalable sulfur-mediated route. The sulfur used here is multifunctional, which can not only act as a sulfur source for sulfurization and S-doping but also to assist the exfoliation of expanded graphite and to encapsulate the in situ transformed Sb2S3 particles. It is demonstrated that the above sulfur-mediated strategy promotes the formation of a packaging structured composite with an average size of 9-15 mu m and low BET specific surface area, exhibiting a high initial coulombic efficiency of 86.7%. Moreover, the advantages of well-distributed Sb2S3 particles into the package, high conductivity, and reversibility endow the composite anode with fast-charging lithium storage capacity in both half and full LIBs. Very importantly, the capacity can be maintained at 548 mA h g(-1) at 5 A g(-1) over 100 cycles for half-cell and 71.3% at 4C rate for full-cell LIBs with NCM333 as the cathode.
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