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Intrinsically Optimizing Charge Transfer via Tuning Charge/Discharge Mode for Lithium-Oxygen Batteries

journal contribution
posted on 2024-11-16, 03:57 authored by Wei Liu, Yue Shen, Yao Yu, Xia Lu, Wang Zhang, Zhaoming Huang, Jintao Meng, Yunhui Huang, Zaiping GuoZaiping Guo
Lithium-oxygen batteries have an ultrahigh theoretical energy density, almost ten times higher than lithium-ion batteries. The poor conductivity of the discharge product Li 2 O 2 , however, severely raises the charge overpotential and pulls down the cyclability. Here, a simple and effective strategy is presented for regular formation of lithium vacancies in the discharge product via tuning charge/discharge mode, and their effects on the charge transfer behavior. The effects of the discharge current density on the lithium vacancies, ionic conductivity, and electronic conductivity of the discharge product Li 2 O 2 are systematically investigated via electron spin resonance, spin-alignment echo nuclear magnetic resonance, and tungsten nanomanipulators, respectively. The study by density functional theory indicates that the lithium vacancies in Li 2 O 2 generated during the discharge process are highly dependent on the current density. High current can induce a high vacancy density, which enhances the electronic conductivity and reduces the overpotential. Meanwhile, with increasing discharge current, the morphology of the Li 2 O 2 changes from microtoroids to thin nanoplatelets, effectively shortening the charge transfer distance and improving the cycling performance. The Li 2 O 2 grown in fast discharge mode is more easily decomposed in the following charging process. The lithium-oxygen battery cycling in fast-discharge/slow-charge mode exhibits low overpotential and long cycle life.

Funding

Potassium ion batteries for large scale renewable energy storage

Australian Research Council

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Exploration of Advanced Nanostructures for Sodium-ion Battery Application

Australian Research Council

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Citation

Liu, W., Shen, Y., Yu, Y., Lu, X., Zhang, W., Huang, Z., Meng, J., Huang, Y. & Guo, Z. (2019). Intrinsically Optimizing Charge Transfer via Tuning Charge/Discharge Mode for Lithium-Oxygen Batteries. Small, 15 (19), 1900154-1-1900154-8.

Journal title

Small

Volume

15

Issue

19

Language

English

RIS ID

135214

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