Silicon-based all-solid-state batteries operating free from external pressure

Silicon-based all-solid-state batteries operating free from external pressure

Abstract Silicon-based all-solid-state batteries offer high energy density and safety but face significant application challenges due to the requirement of high external pressure. In this study, a Li21Si5/Si–Li21Si5 double-layered anode is developed for all-solid-state batteries operating free from...

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Main Authors: Zhiyong Zhang, Xiuli Zhang, Yan Liu, Chaofei Lan, Xiang Han, Shanpeng Pei, Linshan Luo, Pengfei Su, Ziqi Zhang, Jingjing Liu, Zhengliang Gong, Cheng Li, Guangyang Lin, Wei Huang, Ming-Sheng Wang, Songyan Chen
Format: Article
Language:English
Published: Nature Portfolio 2025-01-01
Series:Nature Communications
Online Access:https://doi.org/10.1038/s41467-025-56366-z
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Summary:Abstract Silicon-based all-solid-state batteries offer high energy density and safety but face significant application challenges due to the requirement of high external pressure. In this study, a Li21Si5/Si–Li21Si5 double-layered anode is developed for all-solid-state batteries operating free from external pressure. Under the cold-pressed sintering of Li21Si5 alloys, the anode forms a top layer (Li21Si5 layer) with mixed ionic/electronic conduction and a bottom layer (Si–Li21Si5 layer) containing a three-dimensional continuous conductive network. The resultant uniform electric field at the anode|SSE interface eliminates the need for high external pressure and simultaneously enables a twofold enhancement of the lithium-ion flux at the anode interface. Such an efficient ionic/electronic transport system also facilitates the uniform release of cycling expansion stresses from the Si particles and stabilizes bulk-phase and interfacial structure of anode. Consequently, the Li21Si5/Si–Li21Si5 anode exhibited a critical current density of 10 mA cm−2 at 45 °C with a capacity of 10 mAh cm−2. And the Li21Si5/Si–Li21Si5|Li6PS5Cl|Li3InCl6|LCO cell achieve an high initial Coulombic efficiency of (97 ± 0.7)% with areal capacity of 2.8 mAh cm−2 at 0.25 mA cm−2, as well as a low expansion rate of 14.5% after 1000 cycles at 2.5 mA cm−2.
ISSN:2041-1723

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