Kinetics study of photo-degradation of poly(Vinyl Chloride) films in presence of organotin(IV) complex derivatives

• Published in: Analytical Science and Technology
• Main Author: Mohammed A.; Kadhom M.; Fadhil M.; Hameed A.D.; Imad A.; Alamiery A.; Bufaroosha M.; Yusop R.M.; Jawad A.; Yousif E.
• Format: Article
• Language: English
• Published: Korea Society of Analytical Science 2024
• Online Access: https://www.scopus.com/inward/record.uri?eid=2-s2.0-85203071463&doi=10.5806%2fAST.2024.37.4.251&partnerID=40&md5=b5d8d77f7d30a78359fe0b4d2479e6d3

As polymers became very important in our lives, their negative impact on general health and the environment raised a serious issue. Here, enhancing their life term is presented as a compromise solution between the need and harm. In the study, six PVC films, the plain and five filled with improvers, underwent radiation exposure for 300 hours at room temperature to investigate their photodegradation rates. The modified films were embedded with organotin(IV) complex derivatives (Ph3SnL, Ph2SnL2, Bu3SnL, Bu2SnL2, and Me2SnL2 (where L is levofloxacin)), and their effectiveness was evaluated. The PVC films were compared before and after exposure to various tests including UV-Vis spectroscopy, gel content analysis, theoretical calculations, and EDX microscopy. Findings indicated that the presence of organotin(IV) complex derivatives, particularly Ph3SnL, notably decreased UV light absorbance and the amount of gel content in PVC sheets in comparison to untreated PVC. Furthermore, EDX analysis showed that the PVC-Ph3SnL blend exposed to radiation exhibited the highest chlorine content, reaching 30 %. This blend demonstrated superior efficacy in stabilizing the polymeric materials. © 2024, Korea Society of Analytical Science. All rights reserved.