Polymer Film Blend of Polyvinyl Alcohol, Trichloroethylene and Cresol Red for Gamma Radiation Dosimetry

Polymer Film Blend of Polyvinyl Alcohol, Trichloroethylene and Cresol Red for Gamma Radiation Dosimetry

This study investigated the polymer film composite of polyvinyl alcohol (PVA), trichlorethylene (TCE) and cresol red (CR) dye irradiated with gamma (γ) rays for potential application as radiation dosimetry. The film was prepared via the solvent-casting method with varying concentrations of TCE. Film...

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Bibliographic Details
Published in:Polymers Vol. 13; no. 11; p. 1866
Main Authors: Doyan, Aris, Susilawati, Susilawati, Prayogi, Saiful, Bilad, Muhammad Roil, Arif, Muhamad Fatikul, Ismail, Noor Maizura
Format: Journal Article
Language:English
Published: Basel MDPI AG 04-06-2021
MDPI
Subjects:
Acids
Chlorine
Color
Dosimeters
Dosimetry
Energy
Energy gap
Gamma rays
Optical properties
polymer film composite
Polymer films
Polymers
Polyvinyl alcohol
Radiation
Radiation dosage
Spectrophotometry
Trichloroethylene
γ-rays irradiation
United States > US
Germany
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Summary:This study investigated the polymer film composite of polyvinyl alcohol (PVA), trichlorethylene (TCE) and cresol red (CR) dye irradiated with gamma (γ) rays for potential application as radiation dosimetry. The film was prepared via the solvent-casting method with varying concentrations of TCE. Film samples were exposed to radiation from a γ-rays radiation source of 60Cobalt isotope. Color changes before and after γ-rays irradiation were observed, and the optical properties of the polymer films were investigated by spectrophotometry. Results show that increasing the radiation dose physically changed the color of the polymer film, from purple (pH > 8.8) without radiation (0 kGy) to yellow (almost transparent) (2.8 < pH < 7.2) at the highest dose (12 kGy). The concentration of acid formed due to irradiation increased with the increase in irradiation doses and at higher TCE content. The critical doses of PVA-TCE composites decreased linearly with the increase of TCE composition, facilitating an easy calibration process. The dose response at 438 nm increased exponentially with increasing radiation dose, but showed an opposite trend at the 575 nm band. An increase in the TCA concentration indicated a decrease in the absorption edge and an increase in activation energy, but both decreased for all TCE concentrations at higher doses. The energy gap for the direct and the indirect transitions decreased with increasing TCE concentration and γ-rays radiation dose. The results of this study demonstrated the potential application of PVA-TCE-CR polymer film as γ-rays irradiation dosimetry in a useful dose range of 0–12 kGy.
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ISSN:2073-4360
2073-4360
DOI:10.3390/polym13111866