F. Maaloul scite author profile

The deployment of wireless technologies in the radiology field requires development of radiolucent materials allowing wireless communication. In this paper, both the radiolucency (X-rays) and ElectroMagnetic (EM) properties of the conductive polymer poly(3,4-ethylenedioxythiophene) polystyrene sulfonate (PEDOT:PSS) are investigated to address wireless applications in the field of the radiology. A model was developed to predict the PEDOT:PSS performance and assess the interest of this material in terms of radiolucency characteristics and Electro Magnetic (EM) radiation efficiency. A PEDOT:PSS antenna operating in the Radio-Frequency Identification (RFID) Ultra High Frequency (UHF) band, was realized to experimentally validate abilities of PEDOT:PSS. These performances are compared with those produced by a similar antenna made of conventional materials such as copper. Experimental results validate the numerical model of the designed structure. This paper demonstrates the potential of polymer materials in the field of x-ray imaging.

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Development of a predictive model to reduce the patient radiation dose risk in interventional cardiology

Carpentier

Royer²,

Maaloul³

et al. 2014

Physica Medica

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F. Maaloul

Indications, techniques and results of postoperative brachytherapy in cancer of the oral cavity

Evaluation of the impact of the new radiation protection devices used in interventional cardiology

Indications, techniques and results of postoperative brachytherapy in cancer of the oral cavity

Characterization of Radiolucent and Electro-Magnetic Properties of Polymer PEDOT: PSS for Radiological Applications

Development of a predictive model to reduce the patient radiation dose risk in interventional cardiology

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