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Electromagnetic Interference Shielding Materials

Graphene-Based Composites and Beyond

  • 1st Edition - February 27, 2026
  • Latest edition
  • Editors: Jovana Prekodravac Filipovic, Małgorzata Celuch, Kamel Haddadi, Dragana Marinković
  • Language: English

Please note this is an Open Access title available via Science Direct.Electromagnetic Interference Shielding Materials: Graphene-Based Composites and Beyond offers a thorough… Read more

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Description

Please note this is an Open Access title available via Science Direct.
Electromagnetic Interference Shielding Materials: Graphene-Based Composites and Beyond offers a thorough, systematic overview of the advances made in research on composites-based materials for electromagnetic interference (EMI) shielding during the past several decades. The use of smartphones, wearable electronics, wi-fi, microwaves, and other smart devices is ubiquitous in modern life. All of these electronics emit electromagnetic waves (EMWs) that create electromagnetic pollution. EMWs can cause serious issues such as electromagnetic radiation, electromagnetic interference (EMI), and information leakage. There is an urgent need for inexpensive, environmentally friendly materials that can mitigate the effects of EMI, and this book provides a through investigation of the shielding capabilities of graphene and other novel nanomaterials. The current state of materials used in EMI shielding is discussed, together with synthesis and fabrication methods, relevant mechanisms, measurements, measuring devices, calculations, physicochemical properties, and applications. The book provides detailed analysis of carbon-based nanomaterials and their composites, including materials fabrication, characterization, and advanced application in EMI shielding. The beneficial effects of these new shielding materials will be relevant in the fields of telecommunications, the electronics industry, the automotive industry, ecology, healthcare, medicine, security, and military applications.

Key features

  • Explores the nature, behavior, characteristics, and spectra of EMWs, as well as the consequences and potential health impacts of long-term exposure to this radiation
  • Covers in detail the different low-cost strategies for preparation of new nanomaterials and composites based on graphene oxide and silver nanowires as a protective barrier for EMWs
  • Highlights materials with excellent potential for use in wearable or foldable electronic devices that demand lightweight, highly flexible, and thermally conductive EMI shielding

Readership

Researchers and students in the fields of materials science, materials chemistry, physics, nanotechnology, and chemical and electrical engineering

Table of contents

1. Introduction

2. Electromagnetic wave to material interaction and microwave materials measurements

3. Modelling and measurement of the interaction of electromagnetic waves with shielding materials

4. Nano electromagnetic materials

5. Electromagnetic waves: EM interference, equipment lifetime, measuring errors, and the market of EMW

6. Effects and concerns of EMI on human health and environment

7. Advanced EMI shielding materials for the future

8. Carbon-based nanomaterials: Synthesis, structure, and properties

9. Graphene and related nanomaterials in EMW shielding

10. Conductive polymers and their carbon-based composites in EMI shielding

Product details

  • Edition: 1
  • Latest edition
  • Published: February 27, 2026
  • Language: English

About the editors

JF

Jovana Prekodravac Filipovic

Jovana Prekodravac Filipovic is an Assistant Professor at the Vinča Institute of the Nuclear Sciences, Belgrade, Serbia. Her research interests are focused on the synthesis, modification, and application of carbon-based nanomaterials in the form of colloids and thin films, carbon quantum dots, photocatalytic applications, titanium dioxide, silver nanowires, carbon-based nanocomposites, and graphene.

Affiliations and expertise
Assistant Professor, Vinča Institute of the Nuclear Sciences, Belgrade, Serbia

MC

Małgorzata Celuch

Małgorzata Celuch is President and Senior Scientist at QWED, a high-tech company that she co-founded in 1997. Her background is in computational electromagnetics and she is lead co-author of the QuickWaveTM multiphysics simulation software commercialised by QWED. Her research focuses on applying full-wave computational modelling for the development of methods and instruments for precise measurements of materials in microwave and mmWave ranges.

Affiliations and expertise
President and Senior Scientist, QWED, Warsaw, Poland

KH

Kamel Haddadi

Kamel Haddadi is a Professor with the Institute of Electronics, Microelectronics, and Nanotechnology, a joint research unit between the University of Lille and the CNRS, Lille, France. He is the Head of the Lab-Space RF-2S (Radio-Frequency Sensing and Services) dedicated to the development of microwave/mmWave instrumentation and sensors for non-destructive testing applications.

Affiliations and expertise
Professor, Institute of Electronics, Microelectronics, and Nanotechnology, University of Lille, France

DM

Dragana Marinković

Dragana (Jovanović) Marinković is a Professor at the Vinča Institute of Nuclear Sciences, Belgrade, Serbia. Her research interests address the development of new and innovative methods for the synthesis of nanomaterials in the form of powder, colloids, and thin films; synthesis and characterization of (nano)materials with enhanced properties: oxides and semiconductors; polymer nanocomposites; carbon-based nanomaterials; and photocatalysis.
Affiliations and expertise
Professor, Vinča Institute of Nuclear Sciences, Belgrade, Serbia

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