Electrocatalytic Decomposition of Lithium Oxalate-Based Composite Microspheres as a Prelithiation Additive in Lithium-Ion Batteries

• Published in: Molecules (Basel, Switzerland) Vol. 29; no. 13; p. 2975
• Main Authors: Liu, Jian, Lin, Jingyi, Yin, Zuwei, Tong, Zhen, Liu, Junke, Wang, Zhen, Zhou, Yao, Li, Juntao
• Format: Journal Article
• Language: English
• Published: Switzerland MDPI AG 22.06.2024
• Subjects: Additives; Carbon; coulombic efficiency; Decomposition; electrocatalytic; Lithium; lithium oxalate; lithium-ion battery; Particle size; prelithiation; solid electrolyte interface; prelithiation; solid electrolyte interface; lithium oxalate; lithium-ion battery; coulombic efficiency; electrocatalytic
• ISSN: 1420-3049; 1420-3049
• DOI: 10.3390/molecules29132975

In conventional lithium-ion batteries (LIBs), the active lithium from the lithium-containing cathode is consumed by the formation of a solid electrolyte interface (SEI) at the anode during the first charge, resulting in irreversible capacity loss. Prelithiation additives can provide additional active lithium to effectively compensate for lithium loss. Lithium oxalate is regarded as a promising ideal cathode prelithiation agent; however, the electrochemical decomposition of lithium oxalate is challenging. In this work, a hollow and porous composite microsphere was prepared using a mixture of lithium oxalate, Ketjen Black and transition metal oxide catalyst, and the formulation was optimized. Owing to the compositional and structural merits, the decomposition voltage of lithium oxalate in the microsphere was reduced to 3.93 V; when being used as an additive, there is no noticeable side effect on the performance of the cathode material. With 4.2% of such an additive, the first discharge capacity of the LiFePO4‖graphite full cell increases from 139.1 to 151.9 mAh g , and the coulombic efficiency increases from 88.1% to 96.3%; it also facilitates the formation of a superior SEI, leading to enhanced cycling stability. This work provides an optimized formula for developing an efficient prelithiation agent for LIBs.