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Effect of IR laser radiation on the structure and optical properties of PC-PBT/Pd polymer nanocomposite films
Authors:S. A. Nouh  K. Benthami  M. ME. Barakat
Affiliation:1. Physics Department, Faculty of Science, Taibah University, Al-Madina al Munawarah, Saudi Arabia;2. Physics Department, Faculty of Science, Ain Shams University, Cairo, Egyptsamin273@gmail.com;4. Physics Department, College of Sciences and Arts, Qassim University, Al-Asyah, Saudi Arabia;5. Physics Department, Faculty of Science, Taibah University, Yanbu, Saudi Arabia;6. Physics Department, Faculty of Science, Alexandria University, Alexandria, Egypt
Abstract:ABSTRACT

Bayfol (PC-PBT blend ?lm) is a class of polymeric solid-state nuclear track detector which has a lot of applications in several radiation detection ?elds. It is a bisphenol-A polycarbonate PC blended with polybutylene terephthalate PBT. Bayfol/Palladium (PC-PBT/Pd) nanocomposite films have been deposited using the molding technique. It is worth mentioning that this report is almost the first one dealing with the topic of the changes of physical properties of Bayfol/Pd nanocomposite due to laser exposure. Samples from PC-PBT/Pd (5?wt%) nanocomposite were exposed to IR-pulsed laser of 5-W power, capable of producing 2000 pulses per second with pulse duration of 200?ns at 904?nm. The laser fluences were in the range 2–25?J/cm2. The resultant modi?cations in the exposed nanocomposite samples have been studied as a function of fluence using different characterization techniques such as X-ray diffraction (XRD), UV spectroscopy and color difference studies. The results indicate the proper dispersion of Pd nanoparticles in the PC-PBT matrix that causes a strong intermolecular interaction between Pd and PC-PBT, resulted in an increase in refractive index and the amorphous phase. Also, it is found that the laser exposure reduces the optical energy gap that could be attributed to the increase in structural disorder of the exposed PC-PBT/Pd nanocomposites due to crosslinking. Further, the color intensity ΔE, which is the color difference between the exposed samples and the non-exposed one, was increased with increasing the laser fluence, convoyed by a significant increase in the green and yellow color components.
Keywords:Nanocomposites  XRD  UV spectroscopy  color  laser
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