Elsevier

Synthetic Metals

Volumes 135–136, 4 April 2003, Pages 127-128
Synthetic Metals

Electromagnetic shielding properties of polyaniline composites

https://doi.org/10.1016/S0379-6779(02)00531-3Get rights and content

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Cited by (52)

  • In-situ deposition of polyaniline and polypyrrole electroconductive layers on textile surfaces by the reactive ink-jet printing technique

    2015, Synthetic Metals
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    The usage of conducting polymers for electromagnetic shielding has many advantages such as an absorption-dominant shielding effectiveness [60]. The conducting polymers which are used most frequently for this purpose are polyaniline and polypyrrole [5,61–69] In order to increase EMI shielding efficiency (EMI SE), the use of multilayers of PANI or PPy on PAN fabric was proposed.

  • Conductivity of surface modified TiO<inf>2</inf> dope nanocomposites

    2015, Measurement: Journal of the International Measurement Confederation
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    The designing of new supramolecules with the desired structure and properties for different application has attracted in recent years [1]. These conducting polymers got more attention because of its easily tunable electrical property by incorporating filler materials to in it [2]. Among all conducting polymers, polyaniline is extensively studied because of its easy synthesis, low cost, environmental stability and tunable electrical property by adding small quantity of inorganic or organic materials [3].

  • Synthesis and electromagnetic properties of PANI/PVP/CIP core-shell composites

    2014, Materials Science and Engineering: B
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    Extensive studies have been carried out to develop new and highly efficient absorbents, and various absorbers (such as conductive metal powder, ferrites, carbon products, chiral materials, synthetic organic fibers, etc.) have been singled out or synthesized [1–5].

  • Synthesis, infrared and microwave absorbing properties of (BaFe <inf>12</inf>O<inf>19</inf>BaTiO<inf>3</inf>)/polyaniline composite

    2011, Journal of Magnetism and Magnetic Materials
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    Many types of radar absorbing materials are commercially available and, at present, the most cost effective means of shielding radar radiation, controlling electromagnetic interference and dissipating electrostatic charge is to use either magnetic or dielectric fillers [1,2] or intrinsically conducting polymers [3,4].

  • Synthesis and microwave absorption characteristics of polyaniline/NiZn ferrite composites in 2-40 GHz

    2011, Materials Chemistry and Physics
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    Thus, the electromagnetic compatibility (EMC) and electromagnetic interference (EMI) are becoming a serious problem, and much attention has been paid towards finding suitable microwave absorber to solve this problem. Extensive studies have been carried out to develop new and high efficient absorbents, and various absorbers (such as conductive metal powder, ferrites, carbon products, chiral materials, synthetic organic fibers, etc.) have been singled out or synthesized [1–4]. Due to its high conductivity, environmental stability and rather simple synthesis, polyaniline (PANI) became the focus of attention for preparation of new materials for the fabrication of industrial devices [5–8].

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