Thermally Resistant, Mechanically Robust, Enamel-Inspired Hydroxyapatite/Polyethylene Nanocomposite Battery Separator
ADVANCED FUNCTIONAL MATERIALS(2024)
摘要
Microporous polyethylene (PE) membrane is a representative lithium-ion battery (LIB) separators but regularly shrinks especially in high-temperature conditions, and is facilely pierced while growing Li dendrites, leading to severe consequences such as short circuits, thermal runaway, and even explosion. Herein, this article reports a quasi-continuous strategy that utilizes in situ enamel mineralization engineering followed by thermal treatment to easily develop a large-area, 3D interlaced hydroxyapatite nanosheets array-reinforced PE nanocomposite separator with robust mechanical properties and excellent resistance to thermal shrinkage. Specifically, the 120 degrees C-heated nanocomposite possesses excellent breaking stress, an ultrahigh toughness of approximate to 434.4 MJ m-3, and an enhanced friction coefficient of approximate to 0.69, which are distinctly higher than those of commercial PE separators, respectively, and far exceeding those of reported ceramic modified-PE separators. The elongation of the resultant nanocomposite can achieve an extraordinary approximate to 2456.4% without any fracture under a 180 degrees C-heating temperature. In situ observation and finite element simulation indicate that the impressive mechanical and thermostable integration profits from the co-effect of efficient energy dissipation at organic-inorganic interfaces and mechanically interlocked, mutually-supported hybrid microstructure. The enamel-inspired separator can be potentially applied in safer high-temperature LIBs and this strategy provides a valuable guide to develop other high-performance polymer-based nanocomposites. A quasi-continuous preparation strategy that utilizes in situ enamel mineralization engineering followed by thermal treatment is proposed to develop a large-area, enamel-3D interlaced hydroxyapatite nanosheets array-reinforced polyethylene nanocomposite separator with robust mechanical properties and excellent resistance to thermal shrinkage. The nanocomposite separator can be potentially applied in safer high-temperature Li-ion batteries.image
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关键词
enhanced electrochemical properties,mammalian enamel inspired,nanocomposite polyethylene separators,quasi-continuous strategy
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