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Quick charge/discharge polymer‐based composites filled with inorganic nanosheets have attracted extensive attention and provided a more efficient way to achieve high energy storage density (U) because of the alleviated agglomeration of fillers and the formation of conduction barriers. However, conductive paths have a chance to extend along out‐of‐plane directions by circumventing the micrometer‐sized...
Energy Storage Density
In article number 2108496, Ming Liu and co‐workers successfully synthesize 2‐2 type PVDF‐based composites interlayered by epitaxial (111)‐oriented BTO films, which exhibit a high energy storage density. Phase‐field simulations reveal that PVDF films as outer layers prevent the charge injection from electrodes and BTO films as inner layers suppress the mobile charges across interfaces...