Difunctional electrolyte additive based on the electrostatic shield mechanism for low-temperature sodium-metal batteries-Reference-Cited by-同舟云学术

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Difunctional electrolyte additive based on the electrostatic shield mechanism for low-temperature sodium-metal batteries

Published:2024-07-01 Issue: Volume: Page:
ISSN:0023-074X
Container-title:Chinese Science Bulletin
language:en
Short-container-title:Chin. Sci. Bull.

Author:

Yang Yongjian,Xu Shitan,Liu Congcong,Zhong Shien,Liu Lin,Yao Yu,Rui Xianhong,Yu Yan

Publisher

Science China Press., Co. Ltd.

Link

https://engine.scichina.com/doi/pdf/B2D5FFA66E1C4932B86070B81C72309E

Reference34 articles.

1. Wang Z, Zheng X, Liu X. Promoting fast Na ion transport at low temperatures for sodium metal batteries. ACS Appl Mater Interfaces, 2022, 14: 40985-40991.

2. Liu X, Zheng X, Qin X. Temperature-responsive solid-electrolyte-interphase enabling stable sodium metal batteries in a wide temperature range. Nano Energy, 2022, 103:

3. Tang F, Liu C C, Huang H Y, et al. Research progress on modification of anodic current collectors for sodium metal batteries (in Chinese). J Chin Ceramic Soc, 2023, 51: 2306–2321 [唐芳, 刘聪聪, 黄弘扬, 等. 钠金属电池负极集流体改性的研究进展. 硅酸盐学报, 2023, 51: 2306–2321].

4. Yu Y, Li Q F, Rui X H, et al. Sodium-ion batteries: Key materials and devices (in Chinese). Bull Natl Nat Sci Found China, 2023, 37: 246–254 [余彦, 李奇飞, 芮先宏, 等. 钠离子电池关键材料与器件. 中国科学基金, 2023, 37: 246–254].

5. Che H, Chen S, Xie Y. Electrolyte design strategies and research progress for room-temperature sodium-ion batteries. Energy Environ Sci, 2017, 10: 1075-1101.

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