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Research progress on conductive polymer-based microwave absorption materials: from materials design to functionalities and applications

Ying Zhang, Haojie Yu, Li Wang, Jian Shan, Hongyu Hu, Zheyi Zhu, Yalong Wang, Ying Lu, Chenguang Ouyang

2025Materials Horizons13 citationsDOI

Abstract

doping or composite engineering, while the construction of multicomponent heterostructures induces pronounced dielectric-magnetic synergistic loss effects, thereby broadening the effective absorption bandwidth (EAB). Additionally, their intrinsic flexibility, corrosion resistance, and environmental stability further enhance their application potential. This review systematically examines recent advances in three representative conductive polymer-based composite systems for microwave absorption, focusing on composition design and structural strategies, highlighting the critical integration of microwave absorption capabilities with multifunctional properties, and analyzing their applications in military and civil fields. Finally, key challenges and future research directions for conductive polymer-based MAMs are identified to address evolving demands for next-generation microwave absorption solutions.

Topics & Concepts

Materials scienceMicrowaveNanotechnologyAbsorption (acoustics)PolymerElectrical conductorMaterial DesignElectrically conductiveOptoelectronicsComposite materialEngineeringTelecommunicationsMicrowave and Dielectric Measurement Techniques