High Performance Redox Initiating Systems Based on the Interaction of Silane with Metal Complexes: A Unique Platform for the Preparation of Composites

Currently, Redox Initiating Systems (RISs) of Free Radical Polymerization (FRP) are mainly based on the interaction of aromatic amines with peroxides (e.g., dibenzoyl peroxide (BPO)) that can be both toxic and unstable. In the present work, we aim to replace these hazardous substances in new RIS tha...

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Main Authors: Ahmad Arar, Haifaa Mokbel, Frédéric Dumur, Jacques Lalevée
Format: Article
Language:English
Published: MDPI AG 2020-03-01
Series:Molecules
Subjects:
Online Access:https://www.mdpi.com/1420-3049/25/7/1602
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spelling doaj-4e5348b6786f4388b3d96a3c89959f542020-11-25T02:58:39ZengMDPI AGMolecules1420-30492020-03-01251602160210.3390/molecules25071602High Performance Redox Initiating Systems Based on the Interaction of Silane with Metal Complexes: A Unique Platform for the Preparation of CompositesAhmad Arar0Haifaa Mokbel1Frédéric Dumur2Jacques Lalevée3Université de Haute-Alsace, CNRS, IS2M UMR 7361, F-68100 Mulhouse, FranceUniversité de Haute-Alsace, CNRS, IS2M UMR 7361, F-68100 Mulhouse, FranceAix Marseille Univ, CNRS, ICR UMR 7273, F-13397 Marseille, FranceUniversité de Haute-Alsace, CNRS, IS2M UMR 7361, F-68100 Mulhouse, FranceCurrently, Redox Initiating Systems (RISs) of Free Radical Polymerization (FRP) are mainly based on the interaction of aromatic amines with peroxides (e.g., dibenzoyl peroxide (BPO)) that can be both toxic and unstable. In the present work, we aim to replace these hazardous substances in new RIS that can be peroxide-free and amine-free. Our redox two components (2K) initiating system is based on diphenylsilane (DPS) as reducing agent combined with different metal complexes (Mn(acac)<sub>2</sub>, Cu(AAEMA)<sub>2</sub> or Fe(acac)<sub>3</sub>) as oxidizing agents. For the new proposed RIS, an excellent reactivity is found for the polymerization of benchmark methacrylate monomers under mild conditions (redox polymerization done under air and at room temperature); remarkably, it is also possible to finely control the gel time. Different techniques (optical pyrometry, Real-Time FTIR spectroscopy, Cyclic Voltammetry and Electron Spin Resonance (ESR)) were used to follow the polymerization processes but also to shed some light on the new redox chemical mechanisms.https://www.mdpi.com/1420-3049/25/7/1602redox systems2K systemscomposite materialsfree radical polymerization
collection DOAJ
language English
format Article
sources DOAJ
author Ahmad Arar
Haifaa Mokbel
Frédéric Dumur
Jacques Lalevée
spellingShingle Ahmad Arar
Haifaa Mokbel
Frédéric Dumur
Jacques Lalevée
High Performance Redox Initiating Systems Based on the Interaction of Silane with Metal Complexes: A Unique Platform for the Preparation of Composites
Molecules
redox systems
2K systems
composite materials
free radical polymerization
author_facet Ahmad Arar
Haifaa Mokbel
Frédéric Dumur
Jacques Lalevée
author_sort Ahmad Arar
title High Performance Redox Initiating Systems Based on the Interaction of Silane with Metal Complexes: A Unique Platform for the Preparation of Composites
title_short High Performance Redox Initiating Systems Based on the Interaction of Silane with Metal Complexes: A Unique Platform for the Preparation of Composites
title_full High Performance Redox Initiating Systems Based on the Interaction of Silane with Metal Complexes: A Unique Platform for the Preparation of Composites
title_fullStr High Performance Redox Initiating Systems Based on the Interaction of Silane with Metal Complexes: A Unique Platform for the Preparation of Composites
title_full_unstemmed High Performance Redox Initiating Systems Based on the Interaction of Silane with Metal Complexes: A Unique Platform for the Preparation of Composites
title_sort high performance redox initiating systems based on the interaction of silane with metal complexes: a unique platform for the preparation of composites
publisher MDPI AG
series Molecules
issn 1420-3049
publishDate 2020-03-01
description Currently, Redox Initiating Systems (RISs) of Free Radical Polymerization (FRP) are mainly based on the interaction of aromatic amines with peroxides (e.g., dibenzoyl peroxide (BPO)) that can be both toxic and unstable. In the present work, we aim to replace these hazardous substances in new RIS that can be peroxide-free and amine-free. Our redox two components (2K) initiating system is based on diphenylsilane (DPS) as reducing agent combined with different metal complexes (Mn(acac)<sub>2</sub>, Cu(AAEMA)<sub>2</sub> or Fe(acac)<sub>3</sub>) as oxidizing agents. For the new proposed RIS, an excellent reactivity is found for the polymerization of benchmark methacrylate monomers under mild conditions (redox polymerization done under air and at room temperature); remarkably, it is also possible to finely control the gel time. Different techniques (optical pyrometry, Real-Time FTIR spectroscopy, Cyclic Voltammetry and Electron Spin Resonance (ESR)) were used to follow the polymerization processes but also to shed some light on the new redox chemical mechanisms.
topic redox systems
2K systems
composite materials
free radical polymerization
url https://www.mdpi.com/1420-3049/25/7/1602
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