Suji Mary Zachariah scite author profile

Extensive development in electronics and allied sectors has led to unseen pollution termed electromagnetic interference (EMI). Motivated by its aftereffects, the fabrication of efficient EMI shielding has become a major area of research. This review presents a detailed analysis of very recent trends in various hybrid materials based on polymers, cement, concrete, paints, and so on with diverse filler inclusions for electromagnetic shielding applications. This paper also focuses on the origin and effects of electromagnetic (EM) radiation, the shielding mechanism, and the suitability of the hybrids, various fabrication techniques, characterization; and so on. Fiber-reinforced polymer composites, metal films, microfilms, inks, paints, multiple laminated composites, foams, aerogel-based polymer composites, textiles, and so on are discussed. Newly developed materials like MXene, borophene, semiconducting filler-based hybrid materials are also covered. Finally, an attempt is made, to sum up, the major challenges faced in the design and development of polymer materials for EMI shielding applications.

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From waste to wealth: A critical review on advanced materials for EMI shielding

Zachariah

Antony

Grohens

et al. 2022

J of Applied Polymer Sci

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Solid waste generation has increased enormously due to development in a fast‐moving world. Large amounts of industrial and agricultural waste are either incinerated or subject to landfilling, accounting for increasing air and water pollution. The 3 “R”s of waste management, reduce, reuse, and recycle, in most cases, deduce themselves to a theoretical topic. However, a stage has reached where the primary importance should be given to waste management and sustainable development where reprocessing the materials into new functional materials helps to reduce the consumption of fresh raw materials and reduces various forms of pollution. In this context, this review focuses on eliminating adverse environmental impacts of solid wastes by using various industrial by‐products and bio‐wastes as raw materials for EMI (Electromagnetic interference) shielding applications. In this review, we covered the sources, effects of electromagnetic radiation, mechanism, and factors affecting EMI shielding, synthesis of shielding materials derived from animal waste, agricultural waste, paper waste, fly ash, rubber waste. Thus, this review opens up novel opportunities by upcycling waste materials from multiple sources into highly efficient shielding materials.

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Nanostructured Materials for Electromagnetic Interference Shielding

Thomas¹,

Zachariah²

2021

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