Login / Signup

A Durable and High-Voltage Mn-Graphite Dual-Ion Battery Using Mn-Based Hybrid Electrolytes.

Zhenjie ChengQingyu DongGuiqiang PuJunnan SongWenwu ZhongJia-Cheng Wang
Published in: Small (Weinheim an der Bergstrasse, Germany) (2024)
Rechargeable Mn-metal batteries (MMBs) can attract considerable attention because Mn has the intrinsic merits including high energy density (976 mAh g -1 ), high air stability, and low toxicity. However, the application of Mn in rechargeable batteries is limited by the lack of proper cathodes for reversible Mn 2+ intercalation/de-intercalation, thus leading to low working voltage (<1.8 V) and poor cycling stability (≤200 cycles). Herein, a high-voltage and durable MMB with graphite as the cathode is successfully constructed using a LiPF 6 -Mn(TFSI) 2 hybrid electrolyte, which shows a high discharge voltage of 2.34 V and long-term stability of up to 1000 cycles. Mn(TFSI) 2 can reduce the plating/stripping overpotential of Mn ions, while LiPF 6 can efficiently improve the conductivity of the electrolyte. Electrochemical in-situ characterization implies the dual-anions intercalation/de-intercalation at the cathode and Mn 2+ plating/stripping reaction at the anode. Theoretical calculations unveil the top site of graphite is the energetically favorable for anions intercalation and TFSI - shows the low migration barrier. This work paves an avenue for designing high-performance rechargeable MMBs towards electricity storage.
Keyphrases