Reducing Environmental Pollutants by using Triorganotin(IV)-Tyrosine Complexes that Prolong the Life of the Polymers used in Outdoor Patios
When exposed to UV light at ambient temperature, three tri organotin (IV) complexes with tyrosine as a ligand (85-97% yields) were utilized as additives to prevent the photo-degradation of PVC films (40 mu m thickness). The compounds were described using NMR (1H, 13C and 119Sn), IR, and elemental an...
Published in: | POLLUTION |
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Main Authors: | , , , , , , , , , , , |
Format: | Article |
Language: | English |
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UNIV TEHRAN
2023
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Subjects: | |
Online Access: | https://www-webofscience-com.uitm.idm.oclc.org/wos/woscc/full-record/WOS:001104624400035 |
author |
Arraq Rafid R.; Hadi Angham G.; Ahmed Dina S.; Zainulabdeen Khalid; Hashim Hassan; Ahmed Ahmed A.; Yusop Rahimi M.; Jawad Ali H.; Mohammed Salam A.; Al-Amiery Ahmed; Yousif Emad |
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spellingShingle |
Arraq Rafid R.; Hadi Angham G.; Ahmed Dina S.; Zainulabdeen Khalid; Hashim Hassan; Ahmed Ahmed A.; Yusop Rahimi M.; Jawad Ali H.; Mohammed Salam A.; Al-Amiery Ahmed; Yousif Emad Reducing Environmental Pollutants by using Triorganotin(IV)-Tyrosine Complexes that Prolong the Life of the Polymers used in Outdoor Patios Environmental Sciences & Ecology |
author_facet |
Arraq Rafid R.; Hadi Angham G.; Ahmed Dina S.; Zainulabdeen Khalid; Hashim Hassan; Ahmed Ahmed A.; Yusop Rahimi M.; Jawad Ali H.; Mohammed Salam A.; Al-Amiery Ahmed; Yousif Emad |
author_sort |
Arraq |
spelling |
Arraq, Rafid R.; Hadi, Angham G.; Ahmed, Dina S.; Zainulabdeen, Khalid; Hashim, Hassan; Ahmed, Ahmed A.; Yusop, Rahimi M.; Jawad, Ali H.; Mohammed, Salam A.; Al-Amiery, Ahmed; Yousif, Emad Reducing Environmental Pollutants by using Triorganotin(IV)-Tyrosine Complexes that Prolong the Life of the Polymers used in Outdoor Patios POLLUTION English Article When exposed to UV light at ambient temperature, three tri organotin (IV) complexes with tyrosine as a ligand (85-97% yields) were utilized as additives to prevent the photo-degradation of PVC films (40 mu m thickness). The compounds were described using NMR (1H, 13C and 119Sn), IR, and elemental analysis. The compounds formed were assigned trigonal bipyramidal geometry depending on the spectrum data. Several Triorganotin (IV) tyrosine complexes were synthesized and mixed with polymers to form thin films (vinyl chloride). Up to 300 hours of UV light (wavelength: 313 nm) exposure was given to these films. A microscope, atomic force microscopy, and scanning electron microscopy were used to examine the surface morphology of the PVC films. Rapid UV-weathering was employed to determine weight loss and the production of certain functional groups, including carbonyl and polyene. Compared to pure PVC film, the films with manufactured complexes showed less undesired alterations. By absorbing UV light and scavenging peroxides, hydrochlorides and radicals. The polymer was photo stabilized by the triorganotin (IV)-tyrosine complexes (vinyl chloride). It was discovered that Ph3SnL has the fastest rate of PVC photostabilization. UNIV TEHRAN 2383-451X 2383-4501 2023 9 4 10.22059/POLL.2023.357067.1845 Environmental Sciences & Ecology WOS:001104624400035 https://www-webofscience-com.uitm.idm.oclc.org/wos/woscc/full-record/WOS:001104624400035 |
title |
Reducing Environmental Pollutants by using Triorganotin(IV)-Tyrosine Complexes that Prolong the Life of the Polymers used in Outdoor Patios |
title_short |
Reducing Environmental Pollutants by using Triorganotin(IV)-Tyrosine Complexes that Prolong the Life of the Polymers used in Outdoor Patios |
title_full |
Reducing Environmental Pollutants by using Triorganotin(IV)-Tyrosine Complexes that Prolong the Life of the Polymers used in Outdoor Patios |
title_fullStr |
Reducing Environmental Pollutants by using Triorganotin(IV)-Tyrosine Complexes that Prolong the Life of the Polymers used in Outdoor Patios |
title_full_unstemmed |
Reducing Environmental Pollutants by using Triorganotin(IV)-Tyrosine Complexes that Prolong the Life of the Polymers used in Outdoor Patios |
title_sort |
Reducing Environmental Pollutants by using Triorganotin(IV)-Tyrosine Complexes that Prolong the Life of the Polymers used in Outdoor Patios |
container_title |
POLLUTION |
language |
English |
format |
Article |
description |
When exposed to UV light at ambient temperature, three tri organotin (IV) complexes with tyrosine as a ligand (85-97% yields) were utilized as additives to prevent the photo-degradation of PVC films (40 mu m thickness). The compounds were described using NMR (1H, 13C and 119Sn), IR, and elemental analysis. The compounds formed were assigned trigonal bipyramidal geometry depending on the spectrum data. Several Triorganotin (IV) tyrosine complexes were synthesized and mixed with polymers to form thin films (vinyl chloride). Up to 300 hours of UV light (wavelength: 313 nm) exposure was given to these films. A microscope, atomic force microscopy, and scanning electron microscopy were used to examine the surface morphology of the PVC films. Rapid UV-weathering was employed to determine weight loss and the production of certain functional groups, including carbonyl and polyene. Compared to pure PVC film, the films with manufactured complexes showed less undesired alterations. By absorbing UV light and scavenging peroxides, hydrochlorides and radicals. The polymer was photo stabilized by the triorganotin (IV)-tyrosine complexes (vinyl chloride). It was discovered that Ph3SnL has the fastest rate of PVC photostabilization. |
publisher |
UNIV TEHRAN |
issn |
2383-451X 2383-4501 |
publishDate |
2023 |
container_volume |
9 |
container_issue |
4 |
doi_str_mv |
10.22059/POLL.2023.357067.1845 |
topic |
Environmental Sciences & Ecology |
topic_facet |
Environmental Sciences & Ecology |
accesstype |
|
id |
WOS:001104624400035 |
url |
https://www-webofscience-com.uitm.idm.oclc.org/wos/woscc/full-record/WOS:001104624400035 |
record_format |
wos |
collection |
Web of Science (WoS) |
_version_ |
1809678579193085952 |