1. Chemically impregnated NiO catalyst for molten electrolyte based gas-tank-free Li[sbnd]O2 battery.
- Author
-
Baek, Kyungeun, Lee, Jun Gyeong, Cha, Aming, Lee, Jiseok, An, Kwangjin, and Kang, Seok Ju
- Subjects
- *
LITHIUM-air batteries , *MOLTEN salt electrolytes , *ENERGY storage , *NICKEL oxide , *CARBON electrodes - Abstract
Abstract Closed Li O 2 batteries consisting of electrolytes derived from molten salt have emerged as attractive energy-storage cells because of their unique oxygen-supply mechanism to form a stable Li 2 O discharge product without requiring an oxygen-gas-reservoir. However, the formation of stable Li 2 O discharge product increases the overpotential during the charging process, which compromises the cell performance because of the resulting parasitic reaction. In this study, we demonstrate a potent approach to reversibly operate an oxygen-gas-reservoir-free Li O 2 battery by using chemically impregnated nickel oxide (NiO) nanoparticles as a catalyst on the carbon electrode. The efficient bottom-up process for decorating NiO on a carbon material in binary molten electrolyte enables not only to significantly reduce the loading level of the catalyst but also to enhance the electrochemical performance with preventing the detrimental parasitic reaction in the oxygen-gas-reservoir-free Li O 2 cell. In particular, using the in situ gas analysis with electrochemical measurements, the 20 wt% NiO added to the carbon cathode is sufficient to reduce the charging potential without generation of parasitic gas evolution. Highlights • Oxygen gas tank free Li O 2 battery is demonstrated by using nitrate molten salt. • Chemically impregnated nickel oxide cathode enables to reduce the over potential. • Gas analysis results suggest the reliable electrochemical reaction. [ABSTRACT FROM AUTHOR]
- Published
- 2018
- Full Text
- View/download PDF