Nanoarchitectured in situ pre-lithiated carbon anodes for high-power and long-life Li-ion capacitors
Journal article, 2025

Lithium-ion capacitors (LICs) combine high energy and power densities but often suffer from poor cycle stability (<10 000 cycles) due to uncontrolled Li+ ion losses during solid electrolyte interphase (SEI) layer formation and irreversible side reactions. From an industrial standpoint, achieving >20 000 cycles necessitates an adequate pre-lithiation strategy that efficiently replenishes ions to offset such losses. This work proposes a scalable pre-lithiation approach by adding a thin piece of lithium metal foil (46 mu m) in direct contact with the anode while assembling LICs. The electrochemical potential difference between the Li foil and the carbon-coated porous current collector anode facilitates the lithiation process and promotes in situ pre-lithiation (ISP). After a 10 h pre-lithiation time, the resultant LiCx and SEI layer were verified by ex situ characterization studies. The optimized LIC demonstrated a best-in-class specific energy of 204 Wh kg(-1) and a specific power of 5.5 kW kg(-1). The device achieved a remarkable capacity retention of 87% after 40 000 full charge-discharge cycles, equivalent to 631 h. This structurally engineered strategy underscores the critical role of pre-lithiation in advancing next-generation, high-performance energy storage solutions.

Author

Neetu Bansal

Indian Institute of Technology

Anwar Hussain

Indian Institute of Technology

Nitish Kumar

Chalmers, Industrial and Materials Science, Materials and manufacture

Changyong Park

Hanyang University

Heejoon Ahn

Hanyang University

Yusuke Yamauchi

University of Queensland

Nagoya University

Kyung Hee University

Rahul R. Salunkhe

Indian Institute of Technology

Journal of Materials Chemistry A

2050-7488 (ISSN) 2050-7496 (eISSN)

Vol. In Press

Subject Categories (SSIF 2025)

Energy Engineering

DOI

10.1039/d5ta05543a

More information

Latest update

10/6/2025