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Development of CuS/C composite for microwave absorption using lignin biopolymer

Mohammad Reza Karami, Babak Jaleh, Atefeh Nasri, Mahtab Eslamipanah, Kyong Yop Rhee

2024Journal of Materials Research and Technology9 citationsDOIOpen Access PDF

Abstract

In recent decades, electronic devices have become a crucial component of everyday life and an increasingly important aspect of national security. However, despite their convenience, the emission of electromagnetic (EM) radiation from these devices has created a pollution issue that demands urgent attention. In this study, the properties and performance of CuS/C composites as EM wave-absorbing materials were examined. The main technique employed involved modifying the surface structure and properties of a lignin biopolymer via a fiber laser to derive porous carbon as a microwave absorber in the X-band range. Flower-like CuS microspheres were integrated into the porous carbon to improve the electrical conductivity and promote internal reflections. In addition, multilayer microwave absorbers were developed using CuS/C/epoxy composites with varying weight percentages, which were fabricated through refluxing and annealing techniques. The return losses of the absorbers in single- and multi-layer modes were optimized by modified local particle swarm optimization (MLPSO). The minimum average return loss improved to −15 dB (96.8%) by optimization in the 4-layer mode with a thickness of 1.8 mm. The optimum absorption peak in the 3-layer structure was −54.52 dB at a frequency of 8.83 GHz. The shielding effectiveness assessments indicated that the CuS/C/epoxy composite significantly improved the shielding capabilities of porous C and CuS, resulting in an increase of the shielding effectiveness threshold (SET) from less than 2 dB in lignin to more than 10 dB in CuS/C/epoxy.

Topics & Concepts

Materials scienceElectromagnetic shieldingComposite numberMicrowaveComposite materialBiopolymerPorosityPercolation thresholdEpoxyAbsorption (acoustics)Electrical resistivity and conductivityPolymerTelecommunicationsEngineeringComputer scienceElectrical engineeringElectromagnetic wave absorption materialsAdvanced Antenna and Metasurface Technologies
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