Abstract

Ultrasonic field (USF) is widely used to regulate the intrinsic properties of materials that have not been applied in electromagnetic wave (EMW) absorption. One reason is that the lack of a response mechanism for the materials to USF hinders the expansion of their EMW absorption performance. Therefore, to address this issue, a series of CuS nanoparticles with diverse anions wereconstructed in the presence or absence of USF. The ultrasonic-induced cavitation effect can significantly promote CuS crystallization and lead to the accumulation of S defects at the grain boundaries (GBs). Furthermore, the S defects at the GBs wereeasily oriented and arranged, allowing the polarization relaxation retention to be maintained at 10wt.%. Consequently, the CuS with a nitrate precursor under USF showed an optimum effective absorption bandwidth (EAB) of 10.24GHz at a thickness of 3.5mm, which was228.6% more than that without the USF. CuS with a chloride precursor also achieved an EAB of 3.92GHz, even at a considerably low filler ratio. Thus, ourstudy demonstrates the response mechanism of diverse anions to the USF for the first time and provides a novel technique to optimize the EMW absorption performance of semiconductors. This article is protected by copyright. All rights reserved.

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