Bioinspired Vascular Bundle Structured Nanocellulose/PVDF-HFP Composite Membranes for Efficient Ion Transport and Stable All-Solid-State Lithium Batteries
Chenxiang Gao, Yijie Zhou, Yun Huang, Shuhui Wang, Xiaoyan Ma

TL;DR
A bioinspired nanocellulose composite membrane improves ion transport and stability in all-solid-state lithium batteries.
Contribution
A bioinspired vascular bundle structure in nanocellulose/PVDF-HFP membranes enhances battery performance and stability.
Findings
The composite membrane achieves 2.46 × 10−4 S cm−1 ionic conductivity at 30 °C.
LFP and NCM811 cells retain over 77% and 83% capacity after 1000 and 300 cycles, respectively.
Pouch cells remain stable at temperatures up to 130 °C without thermal runaway.
Abstract
Bioinspired bundle-sheath structure improves electrochemical and thermal stability; nanocellulose composite membranes can be used as high-performance all-solid-state lithium batteries separators.The FFP/ASSPE has a high ionic conductivity of 2.46 × 10−4 S cm−1 at 30 °C.Li|FFP/ASSPE|LFP cells can maintain 77.48% capacity after 1000 cycles at 1 C, and Li|FFP/ASSPE|NCM811 cells maintain 83.94% capacity after 300 cycles of 0.1 C. Bioinspired bundle-sheath structure improves electrochemical and thermal stability; nanocellulose composite membranes can be used as high-performance all-solid-state lithium batteries separators. The FFP/ASSPE has a high ionic conductivity of 2.46 × 10−4 S cm−1 at 30 °C. Li|FFP/ASSPE|LFP cells can maintain 77.48% capacity after 1000 cycles at 1 C, and Li|FFP/ASSPE|NCM811 cells maintain 83.94% capacity after 300 cycles of 0.1 C. The online version contains…
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Taxonomy
TopicsAdvanced Battery Materials and Technologies · Extraction and Separation Processes · Advancements in Battery Materials
