Abstract
Recently, significant interest has been shown in using ferroelectric or piezoelectric energy harvesting to collect mechanical energy from the surrounding atmosphere to power next-generation wearable electronic sensors and devices. Due to their pyroelectric and piezoelectric capabilities and high permittivity for energy storage, ferroelectrics are a significant class of electroactive materials. As a result of its low price and high usability, piezoelectric energy harvesters have seen rapid development over the last decade. When used as part of a larger energy harvesting strategy, ferroelectric/ferroelastic switching may significantly boost energy density. Hence, this study suggests the Stable Diffusion Model-based Composite Layered Ferroelectric Ceramic Materials (SDM-CLFCM) for effective energy harvesting under the background of Meta-Universe. The highest output current and peak power density shown by the composite layered porous piezoelectric composite energy harvester are much greater than those reported for existing porous piezoelectric materials.
Published Version
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