Shen Yifei, Qian Jiangfeng, Yang Hanxi, Zhong Faping, Ai Xinping
College of Chemistry and Molecular Sciences, Hubei Key Laboratory of Electrochemical Power Sources, Wuhan University, Wuhan, Hubei, 430072, China.
National Engineering Research Center of Advanced Energy Storage Materials, Hunan, 410205, China.
Small. 2020 Feb;16(7):e1907602. doi: 10.1002/smll.201907602. Epub 2020 Jan 28.
Hard carbons (HC) have potential high capacities and power capability, prospectively serving as an alternative anode material for Li-ion batteries (LIB). However, their low initial coulombic efficiency (ICE) and the resulting poor cyclability hinder their practical applications. Herein, a facile and effective approach is developed to prelithiate hard carbons by a spontaneous chemical reaction with lithium naphthalenide (Li-Naph). Due to the mild reactivity and strong lithiation ability of Li-Naph, HC anode can be prelithiated rapidly in a few minutes and controllably to a desirable level by tuning the reaction time. The as-formed prelithiated hard carbon (pHC) has a thinner, denser, and more robust solid electrolyte interface layer consisting of uniformly distributed LiF, thus demonstrating a very high ICE, high power, and stable cyclability. When paired with the current commercial LiCoO and LiFePO cathodes, the assembled pHC/LiCoO and pHC/LiFePO full cells exhibit a high ICE of >95.0% and a nearly 100% utilization of electrode-active materials, confirming a practical application of pHC for a new generation of high capacity and high power LIBs.
硬碳(HC)具有潜在的高容量和功率性能,有望成为锂离子电池(LIB)的替代负极材料。然而,其较低的首次库仑效率(ICE)以及由此导致的较差循环稳定性阻碍了它们的实际应用。在此,我们开发了一种简便有效的方法,通过与萘锂(Li-Naph)的自发化学反应对硬碳进行预锂化。由于Li-Naph的反应活性温和且锂化能力强,HC负极可在几分钟内快速预锂化,并通过调节反应时间可控地达到理想水平。所形成的预锂化硬碳(pHC)具有由均匀分布的LiF组成的更薄、更致密且更坚固的固体电解质界面层,因此展现出非常高的ICE、高功率和稳定的循环稳定性。当与目前的商业LiCoO和LiFePO正极配对时,组装的pHC/LiCoO和pHC/LiFePO全电池表现出>95.0%的高ICE以及电极活性材料近100%的利用率,证实了pHC在新一代高容量和高功率LIB中的实际应用。
