Abstract EN:

With the tremendous technological developments related to the accelerated growth in the field of telecommunications, our society is increasingly facing the problem of electromagnetic pollution. The electromagnetic pollution, expected to grow even faster in the coming years, leads to electromagnetic interference phenomena which disturb instruments and systems, and is therefore an important risk for industrial applications and human beings. Developing materials to protect people, instruments and systems from electromagnetic interference phenomena and, furthermore, to reduce the electromagnetic pollution in the environment becomes thus a major challenge in our society. The goal of our study is to respond to this challenge by developing composite materials with an enhanced shielding efficiency of electromagnetic radiation. In this work, the relationship between shielding efficiency at low frequencies and the electrical properties of a material was analyzed first. After that, the shielding performance has been systematically evaluated as a function of the nature (Carbon Black, Carbon nanotubes, Nickel coated Graphite, Silver coated Aluminum particles and silver coated glass fibers) and the volume fraction of conductive fillers. Furthermore, the impact of processing on the final performance of materials, representing a crucial aspect for many industrial applications, has been investigated by employing ionic liquids as processing aids. The guideline of this project was to systematically investigate the main factors that play an important role in enhancing the shielding effectiveness of composite materials. Finally, higher performance composite materials have been developed to address industrial issues