A Simple Preparation Route for Bio-Phenol MQ Silicone Resin via the Hydrosilylation Method and its Autonomic Antibacterial Property

MQ silicone resins represent a broad range of hydrolytic condensation products of monofunctional silane (M units) and tetrafunctional silane (Q units). In this work, a Bio-Phenol MQ silicone resin (BPMQ) was designed and synthesized by the hydrosilylation of hydrogen containing MQ silicone resin and...

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Autores principales: Ji, Jianye, Ge, Xin, Liang, Weijie, Liang, Ruiyuan, Pang, Xiaoyan, Liu, Ruoling, Wen, Shuyi, Sun, Jiaqi, Chen, Xunjun, Ge, Jianfang
Formato: Online Artículo Texto
Lenguaje:English
Publicado: MDPI 2019
Materias:
Article
Acceso en línea:https://www.ncbi.nlm.nih.gov/pmc/articles/PMC6780843/
https://www.ncbi.nlm.nih.gov/pubmed/31450773
http://dx.doi.org/10.3390/polym11091389
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author Ji, Jianye
Ge, Xin
Liang, Weijie
Liang, Ruiyuan
Pang, Xiaoyan
Liu, Ruoling
Wen, Shuyi
Sun, Jiaqi
Chen, Xunjun
Ge, Jianfang
author_facet Ji, Jianye
Ge, Xin
Liang, Weijie
Liang, Ruiyuan
Pang, Xiaoyan
Liu, Ruoling
Wen, Shuyi
Sun, Jiaqi
Chen, Xunjun
Ge, Jianfang
author_sort Ji, Jianye
collection PubMed
description MQ silicone resins represent a broad range of hydrolytic condensation products of monofunctional silane (M units) and tetrafunctional silane (Q units). In this work, a Bio-Phenol MQ silicone resin (BPMQ) was designed and synthesized by the hydrosilylation of hydrogen containing MQ silicone resin and eugenol in the presence of chloroplatinic acid. The structure, thermal property, and antibacterial property against Escherichia coli of the modified MQ silicone resin were investigated. The results showed that BPMQ has been prepared successfully, and the thermal stability of this modified polymer improved significantly because of the introduction of phenyl in eugenol. The temperature at the maximum degradation rate increased from 250 °C to 422.5 °C, and the residual yields mass left at 600 °C were increased from 2.0% to 28.3%. In addition, its antibacterial property against Escherichia coli was also enhanced markedly without adding any other antimicrobial agents. This improved performance is ascribed to special functional groups in the structure of eugenol. The BPMQ polymer is expected to be applied to pressure-sensitive adhesives and silicone rubber products for the biomedical field due to its reinforcing effect and antioxidant quality.
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spelling pubmed-67808432019-10-30 A Simple Preparation Route for Bio-Phenol MQ Silicone Resin via the Hydrosilylation Method and its Autonomic Antibacterial Property Ji, Jianye Ge, Xin Liang, Weijie Liang, Ruiyuan Pang, Xiaoyan Liu, Ruoling Wen, Shuyi Sun, Jiaqi Chen, Xunjun Ge, Jianfang Polymers (Basel) Article MQ silicone resins represent a broad range of hydrolytic condensation products of monofunctional silane (M units) and tetrafunctional silane (Q units). In this work, a Bio-Phenol MQ silicone resin (BPMQ) was designed and synthesized by the hydrosilylation of hydrogen containing MQ silicone resin and eugenol in the presence of chloroplatinic acid. The structure, thermal property, and antibacterial property against Escherichia coli of the modified MQ silicone resin were investigated. The results showed that BPMQ has been prepared successfully, and the thermal stability of this modified polymer improved significantly because of the introduction of phenyl in eugenol. The temperature at the maximum degradation rate increased from 250 °C to 422.5 °C, and the residual yields mass left at 600 °C were increased from 2.0% to 28.3%. In addition, its antibacterial property against Escherichia coli was also enhanced markedly without adding any other antimicrobial agents. This improved performance is ascribed to special functional groups in the structure of eugenol. The BPMQ polymer is expected to be applied to pressure-sensitive adhesives and silicone rubber products for the biomedical field due to its reinforcing effect and antioxidant quality. MDPI 2019-08-23 /pmc/articles/PMC6780843/ /pubmed/31450773 http://dx.doi.org/10.3390/polym11091389 Text en © 2019 by the authors. Licensee MDPI, Basel, Switzerland. This article is an open access article distributed under the terms and conditions of the Creative Commons Attribution (CC BY) license (http://creativecommons.org/licenses/by/4.0/).
spellingShingle Article
Ji, Jianye
Ge, Xin
Liang, Weijie
Liang, Ruiyuan
Pang, Xiaoyan
Liu, Ruoling
Wen, Shuyi
Sun, Jiaqi
Chen, Xunjun
Ge, Jianfang
A Simple Preparation Route for Bio-Phenol MQ Silicone Resin via the Hydrosilylation Method and its Autonomic Antibacterial Property
title A Simple Preparation Route for Bio-Phenol MQ Silicone Resin via the Hydrosilylation Method and its Autonomic Antibacterial Property
title_full A Simple Preparation Route for Bio-Phenol MQ Silicone Resin via the Hydrosilylation Method and its Autonomic Antibacterial Property
title_fullStr A Simple Preparation Route for Bio-Phenol MQ Silicone Resin via the Hydrosilylation Method and its Autonomic Antibacterial Property
title_full_unstemmed A Simple Preparation Route for Bio-Phenol MQ Silicone Resin via the Hydrosilylation Method and its Autonomic Antibacterial Property
title_short A Simple Preparation Route for Bio-Phenol MQ Silicone Resin via the Hydrosilylation Method and its Autonomic Antibacterial Property
title_sort simple preparation route for bio-phenol mq silicone resin via the hydrosilylation method and its autonomic antibacterial property
topic Article
url https://www.ncbi.nlm.nih.gov/pmc/articles/PMC6780843/
https://www.ncbi.nlm.nih.gov/pubmed/31450773
http://dx.doi.org/10.3390/polym11091389
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