Recent Approaches to Modify Poly(vinyl chloride) Chemical Structure

A.Hasan, Amer; Al‐Mashhadani, Mohammed H.; Al-Dahhan, Wedad H.; M.Yusop, Rahimi; Yousif, Emad

doi:10.22401/anjs.25.3.02

ANJS

2022

DOI: 10.22401/anjs.25.3.02

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Recent Approaches to Modify Poly(vinyl chloride) Chemical Structure

Amer A.Hasan¹,

Mohammed H. Al‐Mashhadani²,

Wedad H. Al-Dahhan³

et al.

Abstract: Since its first discovery in the nineteenth century, polymer researchers have continued to study poly(vinyl chloride). Its characteristics, such as its thermal instability, are delicate by its structural flaws that result from its containing chlorine atom which is sensitive to UV light as a good leaving group. Many researchers suggested adding various types of organic and inorganic additives as photo and/or thermal stabilizers of poly(vinyl chloride). Recently this wo… Show more

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2024

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Cited by 3 publications

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OptimizingPVCphotostability andUVblocking capability through nanoparticles incorporation: A comprehensive review

Anwer,

Al‐Mashhadani,

Alsayed

et al. 2024

Vinyl Additive Technology

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Polyvinyl chloride (PVC) plays a crucial role in various sectors including industry, agriculture and medicine, primarily due to their affordability, durability, relative chemical inertness, versatility, and ease of processing. Nonetheless, the polymer experiences a serious damage (degradation) upon exposure to UV radiation from sunlight. UV light mainly induces dehydrochlorination, leading to the release of hydrogen chloride (HCl). This process results in the formation of conjugated alkene structures within the polymer backbone, causing weight loss, and deterioration in the PVC's mechanical and physical properties. This deterioration affects not only the material's structure and appearance but also its performance, particularly in outdoor environments. Many advancements have been made in developing UV protective and UV blocking agents to reduce the effect of the harmful light on the polymer and the substance contained within. Nanoparticles (NPs) encompass a wide range of organic, inorganic, and hybrid materials, which have proven an outstanding UV stabilizing effect on the polymer via different mechanisms including absorption, reflection, scattering, and radicals scavenging. The incorporation of NPs into the polymeric matrix not only enhances the photostability of it but also endow the polymer improved UV‐blocking capability enlarging its application in various fields, most importantly packaging. While some of these NPs exhibit photocatalysis effect on the polymer and increase the rate of degradation, the surface modification can substantially reduce this effect. This review covers all research papers published since 2015 that investigate the use of nanoparticles not only as photostabilizers but also as UV‐shielding agents, providing a comprehensive analysis of their applications. It also delves into the underlying mechanisms by which these nanoparticles enhance the photostability of the polymer matrix itself and the protection of the materials contained within it through the blocking of the harmful light. Additionally, it discusses recent strategies, especially surface modification, to enhance the dispersion of NPs in polymeric materials and decreasing the photocatalytic activity of NPs.Highlights PVC is susceptible to degradation caused by UV radiation from sunlight. NPs are promising candidates for mitigating the harmful effects of UV light. Surface modification reduces photocatalytic degradation by nanoparticles. Homogeneous distribution of NPs in the polymer improves photostability. NPs endow polymers with UV‐shielding capabilities for packing applications.

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OptimizingPVCphotostability andUVblocking capability through nanoparticles incorporation: A comprehensive review

Anwer,

Al‐Mashhadani,

Alsayed

et al. 2024

Vinyl Additive Technology

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show abstract

Poly(vinyl chloride) (PVC): an updated review of its properties, polymerization, modification, recycling, and applications

Edo,

Ndudi,

Ali

et al. 2024

J Mater Sci

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(Mechano)chemical modification of polyvinyl chloride with azole-based drugs

Al-Sammarraie,

Al-Ithawi,

Baklykov

et al. 2024

Chim.Tech.Acta

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Polyvinyl chloride (PVC) plays an important role in industry; however, due to its uncontrolled accumulation in the environment, the methods for its utilization are of high demand. Herein we wish to report an approach for the utilization of PVC via its use as a carrier for some azole-based drugs, such as 2-mercaptobenzothiazole (multi-activity drug), 4-oxo-1,4-dihydropyrazolo[5,1-c]-1,2,4-triazine-3,8-dicarboxylic acid diethyl ester (antidiabetic drug) and 5-methyl-6-nitro-7-oxo-1,2,4-triazolo[1,5-a]pyrimidinide (antiviral drug). The abovementioned approach involves the reaction between PVC and potassium or sodium salts of these azole-based drugs either in solution or under ball-milling conditions. The as-obtained PVCs modified with azole-based drugs were isolated for the first time and characterized by means of 1H NMR-spectroscopy as well as gel-permeation chromatography (GPC).

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Recent Approaches to Modify Poly(vinyl chloride) Chemical Structure

Cited by 3 publications

References 44 publications

OptimizingPVCphotostability andUVblocking capability through nanoparticles incorporation: A comprehensive review

OptimizingPVCphotostability andUVblocking capability through nanoparticles incorporation: A comprehensive review

Poly(vinyl chloride) (PVC): an updated review of its properties, polymerization, modification, recycling, and applications

(Mechano)chemical modification of polyvinyl chloride with azole-based drugs

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