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Oscillatory solvation chemistry for a 500 Wh kg−1 Li-metal pouch cell

Nature Energy [2024]
Zhang Shuoqing, Li Ruhong, Deng Tao, Ma Qiang, Hong Xiang, Zhang Hao, Zhang Ruixin, Ding Shouhong, Wu Yongjian, Zhu Haotian, Li Menglu, Zhang Haikuo, Lu Di, Ma Baochen, Lv Ling, Li Yong, Chen Lixin, Shen Yanbin, Guo Rui, Fan Xiulin
ABSTRACT

Cation solvation is well understood in the bulk solution phase, but knowledge is limited regarding the electrode–electrolyte interface. The process by which cation solvation conforms to the interfacial field to form interphases remains unclear. Here we examine the synergistic effects of external and intramolecular fields on accommodating Li + solvates to the Li-metal anode, leading to dielectric-mediated transfer dynamics on the interface. At charged interfaces, cation–anion pairs arrange in a periodic oscillatory distribution. A low-oscillation amplitude exacerbates the electrolyte decomposition and increases surface impedance. We propose a dielectric protocol that maintains cation–anion coordination with a high oscillation amplitude at the interfaces, addressing these issues. Accordingly, we demonstrate a Li-metal pouch cell with an energy density of 500 Wh kg −1 at the Ah level using an ultra-lean electrolyte (1 g Ah −1 ). Our study offers insights into solid/liquid interfaces that are crucial in advancing battery technologies.

MATERIALS

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