Novel radiation shielding nanocomposites based on a conducting polymer were fabricated and investigated to determine their abilities in attenuation of X-rays. Polypyrrole/Pb nanocomposites were prepared through chemical reduction of lead salt by a facile solution-phase method using t-BuOLi-activated LiH and in situ chemical polymerization of pyrrole in the presence of dodecyl benzene sulfonic acid as dopant and surfactant and iron chloride as the oxidant. The morphology, composition, and electrical conductivity of resulting products were characterized by scanning electron microscopy, transmission electron microscopy, X-ray diffraction analysis, energy-dispersive X-ray spectroscopy, fourier transform infrared spectroscopy, and standard four-wire technique, respectively. In order to evaluate capability of nanocomposites in radiation shielding, X-ray photon interaction parameters such as linear attenuation coefficient, attenuation percentage, and half-value thickness were determined for the samples with different Pb loadings and thicknesses, at photon energies of 13. 95, 17.74, 20.08, 26.34, and 59.50 keV. The investigation was carried out to explore the potential of polypyrrole/Pb nanocomposites as thin and light-weight radiation shielding materials.
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