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In article number 1901582, Xiangyu Jiang, Xiaoshi Qian, Yunhe Zhang, and co‐workers fabricate a series of bioinspired nanocomposites by designing multiple interfacial interactions between the wide‐gap artificial nanosheets and high glass transition temperature (Tg) polymer matrix. Nanoconfinement effect is utilized in the nanocomposites for enhanced electric energy‐storage properties.
Polymer dielectrics are ubiquitous in advanced electric energy storage systems. However, the relatively low operating temperature significantly menaces their widespread application at high temperatures, such as for hybrid vehicles and aerospace power electronics. Spider silk, a natural nanocomposite comprised of biopolymer chains and crystal protein nanosheets combined by multiple interfacial interactions,...
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