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Toward efficient functionalization of polystyrene backbone through ketene chemistry: Synthesis, characterization, and DFT study.

Authors :
Heydari, Abolfazl
Hosseini, Maryam
Darroudi, Mahdieh
Behzadi, Masoumeh
Hronský, Viktor
Sučik, Gabriel
Rouh, Hossein
Sheibani, Hassan
Source :
Polymers for Advanced Technologies; Feb2023, Vol. 34 Issue 2, p587-596, 10p
Publication Year :
2023

Abstract

In this study, polystyrene was functionalized with Meldrum's acid toward the introduction of the ketenes (CCO) system to its backbone for producing a dramatically reactive intermediate. Meldrum's acid, as a ketene source, was reacted by poly(styrene‐co‐p‐chloromethyl styrene) through a simple nucleophilic reaction to synthesize poly(styrene‐co‐styryl Meldrum's acid). Then, the pendant Meldrum's acid under thermal treatment converted to ketene intermediate resulting in highly reactive polystyrenes derivatives, which rapidly reacted by nucleophilic reagents to afford ultimate organic building blocks. The polystyrene derivatives were characterized using elemental analysis, FT‐IR, high‐resolution solid‐state NMR, thermogravimetric analysis (TGA), and differential thermogravimetric analysis (DTG). To clarify the evolutionary mechanisms of polystyrene products, density functional theory (DFT) method B3LYP with the 6–311++G(2d,p) basis set was used. We studied the preparation of polystyrene model compounds through Meldrum's acid thermolysis and nucleophilic substitution. The kinetic and thermodynamic parameters in all reactions and the structural and electronic properties of all molecules were calculated. These data exhibited that based on Gibbs Free energy values, the structure of syndiotactic polystyrene is more stable than that of isotactic polystyrene. Furthermore, it was found that the presence of an electron donor or acceptor substituent on the polystyrene structure affects the electronic bandgap. [ABSTRACT FROM AUTHOR]

Details

Language :
English
ISSN :
10427147
Volume :
34
Issue :
2
Database :
Complementary Index
Journal :
Polymers for Advanced Technologies
Publication Type :
Academic Journal
Accession number :
161104132
Full Text :
https://doi.org/10.1002/pat.5910