The strengthening mechanism of spontaneous orientation polarization of anisotropic equivalent dipoles within high-entropy alloys (HEAs) is proposed for enhancing dielectric attenuation of HEAs.

The source of carbon supporter is expanded to the biomass category, which can construct the shell-core heterointerfaces with HEAs by means of a reformative carbothermal shock method.

The sample carbonized cellulose paper/HEAs-Mn_2.15 achieves efficient electromagnetic wave absorption of -51.35 dB at an ultra-thin thickness of 1.03 mm.

This work combines theoretical calculations and electromagnetic simulations to propose feasible strategies for the design and application of electromagnetic functional devices such as ultra-wideband bandpass filter.

提出了高熵合金（HEA）内各向异性等效偶极子自发取向极化的强化机制，以增强 HEA 的介电衰减。

将碳载体的来源扩展到生物质范畴，可以通过改进的碳热冲击方法与HEA构建壳核异质界面。

碳化纤维素纸/HEAs-Mn _2.15样品在1.03毫米的超薄厚度下实现了-51.35 dB的高效电磁波吸收。

该工作结合理论计算和电磁仿真，为超宽带带通滤波器等电磁功能器件的设计和应用提出可行的策略。