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Electromagnetic Interference in the Modern Era: Concerns, Trends, and Nanomaterial-Based Solutions

Jovana Prekodravac Filipović, Mila Milenković, Dejan Kepić, Sladjana Dorontić, Muhammad Yasir, Blaž Nardin, Svetlana Jovanović

2025Nanomaterials13 citationsDOIOpen Access PDF

Abstract

Electromagnetic interference (EMI) represents a growing challenge in the modern era, as electronic systems and wireless technologies become increasingly integrated into daily life. This review provides a comprehensive overview of EMI, beginning with its historical evolution over centuries, from early power transmission systems and industrial machinery to today's complex environment shaped by IoT, 5G, smart devices, and autonomous technologies. The diverse sources of EMI and their wide-ranging effects are examined, including disruptions in electrical and medical devices, ecological impacts on wildlife, and potential risks to human health. Beyond its technical and societal implications, the economic dimension of EMI is explored, highlighting the rapid expansion of the global shielding materials market and its forecasted growth driven by telecommunications, automotive, aerospace, and healthcare sectors. Preventative strategies against EMI are discussed, with particular emphasis on the role of advanced materials. Carbon-based nanomaterials-such as graphene, carbon nanotubes, and carbon foams-are presented as promising solutions owing to their exceptional conductivity, mechanical strength, tunable structure, and environmental sustainability. By uniting perspectives on EMI's origins, consequences, market dynamics, and mitigation strategies, this work underscores the urgent need for scalable, high-performance, and eco-friendly shielding approaches. Special attention is given to recent advances in carbon-based nanomaterials, which are poised to play a transformative role in ensuring the safety, reliability, and sustainability of future electronic technologies.

Topics & Concepts

EMIElectromagnetic interferenceSustainabilityElectromagnetic shieldingTransformative learningRisk analysis (engineering)Emerging technologiesComputer scienceWirelessSystems engineeringWork (physics)Transmission (telecommunications)Technological changeTelecommunicationsPower transmissionEngineeringDimension (graph theory)ElectronicsElectrical engineeringElectromagnetic compatibilityCover (algebra)Technological evolutionPower (physics)BusinessOrchestrationElectronic systemsNanotechnologyInvisibilityElectromagnetic Fields and Biological EffectsElectromagnetic wave absorption materialsWireless Power Transfer Systems